Electronics and Telecommunications Department – Barcelona - Spain

Dr. Jaume Anguera, IEEE Fellow

Associate Professor (Profesor Titular), Electronics and Telecommunication Engineering, Universitat Ramon LLull

CTO and Founder at Ignion

h-index 52 (in the top 2.0% of the ranking of Spanish scientists)

Source: Acumen Project European Commission 7th Framework Programme

jaume_p1070751

(I was born in Vinaròs - Spain)

 

Welcome to my page!


Education              Experience            Teaching               Research               Publications              Chairman           Funded Projects              Patents       

Taken courses      Prizes          Memberships         Reviewer/Scientific Committee            Editor          Academic Activities         Science Divulgation Photo Gallery        Press Cuttings


CURRICULUM

*    Education

*     Technical Engineer degree in Electronic Systems (Ramon Llull University (URL), Barcelona, Spain)

     Final Project: "Measurement and Control of microwave transistors" (in Catalan) 

*     Electronic Engineer (Ramon Llull University (URL), Barcelona, Spain) 

     Final Project: "Microstrip Phased Array with Ring Patches controlled with PIN Diode Phase Shifters" (with honors) (in Catalan) 

*     Telecommunication Engineer (Polytechnic University of Catalunya (UPC), Barcelona, Spain) 

     Final Project: "Design Techniques for Wideband and Multifrequency Microstrip Patch Antennas" (with honors) (in Catalan) 

*     Ph.D (Doctor Ing.) degree at Polytechnic University of Catalunya (UPC), Barcelona, Spain.

     Ph.D Thesis: “Fractal and BroadBand Techniques for Miniature, Multifrequency and High-Directivity Microstrip Patch Antennas” 

     (Excellent cum-laude) (in English)

     (if you are interested in my Ph.D thesis, you can send me an e-mail:    jaume.anguera@ignion.com or jaume.anguera@salle.url.edu)

 

 

 

 

*    Experience: 22 years in Academia and Industry

*     In 1997-1999 I joined the Electromagnetic and Photonic Engineering Group of the Signal Theory and Communications Department (ETSETB, UPC, Barcelona, Spain) as a doctorate student. My current research interests were fractal and wideband printed antennas.

 

*     Senior Researcher at Sistemas Radiantes F. Moyano Madrid, Spain fall 1998. I was involved in the design of a Dual-Frequency Dual-Polarized Fractal-Shaped microstrip patch array for GSM900 and GSM1800 communications systems. 

 

*     Partner and R&D Manager at Fractus, Barcelona, Spain Dec-1999-Jule 2017. My activities were Research, Innovation and Product/Patent Development.

 

·       I have directed many research and innovation projects at Fractus resulting in new antenna technologies (patents – see the list on this web) and products.

·       My expertise is also helpful for Patent Prosecution and Patent Infringement Analysis.

·       This is a simplified timeline reflecting my activities at Fractus:

-     Base Station Business Unit: Dec 1999 – July 2002

-     Automotive Business Unit: 2002-2003

-     Wireless Business Unit: 2003

-     Mobile Business Unit: 2002- 2006

-     Technology and IPR: 2006 to June 2017

 

*     R&D Manager at Fractus, Republic of Korea. September 2003-June 2004. I was also assigned to Fractus in South Korea (Seoul) to head up the research team. One of my main tasks was to provide training, education and development of the team’s core competency, and to provide R&D vision to address the rapidly growing mobile device market. During this period, the company Fractus had secured major contracts with companies such as Samsung, LG, Bellwave to name a few.

On one hand, I was leading the design and development of miniature and multiband antennas for handset phones. I have been leading an interdisciplinary engineering Korean team (electrical and mechanical engineers). On the other hand, I was in charge of setting up the technology group. In Korea, I directed handset antenna projects for Samsung, LG, Bellwave, Innostream, Innolinx, EzzeTech, and Pantech-Curitel mobile-phone companies. From June 2004 to May 2006 I have been supporting Fractus-Korea R&D activities as well as handset antenna product development.

 

                    My book about my Korean Experiences (in Spanish) – you can buy it at Amazon using this link

 

 

                    The book contents:

 

I.                Welcome to Korea

 

II.              Korea and Chandeokgung Palace

 

III.             National Park of Soraksan

 

IV.            Deoksugung Palace and Noryangjin and Namdaemun Markets

 

V.              Incheon city

 

VI.            Gyeongbokgung Palace and Cheongwadae (President House)

 

VII.          Olympic park and Taekwondo

 

VIII.        DMZ (Demilitarized Zone)

 

IX.            Banners, differential aspect of the Korean culture

 

X.              Hwaseong Fortress at Suwon city

 

XI.            Onomatopoeias, names, and Konglish

 

XII.          Urban habits. Part I

 

 

….up to XL!

 

 

 

*     Co-Founder and CTO at Ignion. July 2017-up to date.

Back in 2007, after a creative research project at the technology company Fractus (Barcelona, Spain), Dr. Jaume Anguera and Dr. Aurora Andújar invented a new and disruptive antenna technology called Ground Plane Booster Antenna Technology (commercially known as Virtual AntennaTM Technology). This resulted in many patents, papers published, conferences, thesis, catalyzing the creation of a new company, Ignion, to commercialize the booster-based antenna technology. Nowadays, antenna boosters are integrated into many wireless devices around the world. The background of this webpage is inspired by the first commercial ground plane booster ever.

·       R&D Manager, July 2017 – Feb. 2018

·       Chief Scientist, Feb. 2018 – Feb 2020

·       CTO, Feb. 2020 – Up to date

 

Design antenna solutions have been adopted in many devices worldwide. Example at Thingy:91 by Nordic Semiconductor - a multi-sen­sor prototyping kit ideal for kick-starting cellular IoT projects and mangOH® yellow by Sierra Wireless, a super sensor for cellular industrial IoT

                   

                   

Thingy:91 of Nordic Semiconductor - a multi-sen­sor prototyping kit ideal for kick-starting cellular IoT projects with TRIO mXTEND™ chip antenna by Ignion

Monarch 2 by Sequans with the

TRIO mXTEND™ chip antenna for cellular IoT by Ignion

 

 mango® Yellow, a super sensor for cellular industrial IoT with a RUN mXTEND™ antenna booster by Ignion

P32 series module by Cavli Wireless with a RUN mXTEND™ antenna booster by Ignion

Imagen de la pantalla de un video juego

Descripción generada automáticamente con confianza media

Global LoRA sensor Generic Node by The Things Industries with a ONE mXTEND™ antenna booster by Ignion

 

 

 

 

 


*    TEACHING

 Certifications

1.     2005 Tenure-track lecturer U1465-1º URL/13, granted by AQU Catalunya

2.     2015 Advanced Research/Full Professor, 0233S/411/2015, 2ª Convocatòria catedràtic 2014 granted by AQU Catalunya

 

Since 1999-to date with Universitat Ramon LLull as Associate Professor (Profesor Titular) teaching:

 Telecommunication and Electronics Engineering

1.     Electromagnetic Theory

2.     Antenna Theory (you can download my Book). I am teaching Antenna Theory since 1999 up to date.

Open book under a Creative Commons License. Do not hesitate to contact me for further details (jaume.anguera@salle.url.edu). Thank-you.

Some examples of the book

Antennas: An interactive approach (in Spanish). Coming soon (please, ask me for details)

A Mathcad based book: interactive equations plus videos.

Current chapters:

1.     Linear Antennas

2.     Antenna Arrays

3.     Microstrip antennas

4.     Electromagnetic analysis using FDTD

5.     Reflectors

6.     Smart antennas

7.     Method of Moments

2011

 

 

3.     Intensification and Specialization in Communications

4.     Antenna Design and Applications (master course at Universitat Ramon LLull together with Universitat Oberta de Catalunya).

5.     Master seminars “Engineering Engineers”

6.     Antenna Technology, Master Telecommunication Engineering at Universitat Ramon Llull

*     Ph.D degree

1.     Advanced Topics on Antennas

2.     Patents for Researchers

 

 DIRECTED FINAL PROJECTS (thesis)

URL: Universitat Ramon Llull – Barcelona – Spain

UPC: Universitat Politècnica de Catalunya – Barcelona – Spain

UAB: Universitat Autònona de Barcelona, Barcelona - Spain

 3-4 YEAR STUDENTS (Technical degree)

 

 

*     5 YEAR STUDENTS (Engineering Degree/Master Degree)

1.     Nicolás Delbene, "Dual Band Electromagnetically Coupled Stacked Patch Antenna". 2001 ETSETB, UPC. (in Spanish)

2.     Marc Aznar, "Miniature Wide-Band Microstrip Antenna with Sierpinski Gasket Geometry". 2001 ETSETB, UPC. (in Catalan)

3.     Gemma Montesinos, “Exploration of Fracton Modes in the Bowtie Sierpinski-like Microstrip Patch Antenna”. 2002 ETSETB, UPC (in Spanish)

4.     Enrique Martínez, “Techniques to Design Multi-frequency Broadband Microstrip Patch Antennas Using Multilevel Geometries and Multiple Parasitic Elements”. 2002 ETSETB, UPC (in Spanish)

5.     Gisela Font, “Multifrequency Microstrip Antennas Using Parasitic Elements, Reactive Loading Techniques and Fractal Structures”. 2002 ETSETB, UPC (in Catalan)

6.     David Gala, “Miniature Microstrip Antennas Using Space-Filling Curves based on the Fractal Hilbert Curve”, 2002, ETSETB, UPC (in Spanish)

7.     Quim Esquirol, “Antenna Radiation Pattern Synthesis using Neural Networks and Genetic Algorithms”, 2003, URL (in Catalan)

8.     Carlos Subías, “Electronic Book: an Antenna Theory Approach”, 2003, URL (in Spanish)

9.     Raquel Montero, “Applications of Periodic Structures to Antenna Design: Artificial Magnetic Conductors and Electromagnetic Bandgap Surfaces”. 2004, ETSETB, UPC (in Spanish)

10. Vanessa Jordan, “Educational tool for Electromagnetic Analysis using the Finite Difference Time Domain (FDTD) Method”, 2005, URL (in Spanish)

11. Xavier Carroza, “Image Theory and FDTD Antenna Simulation for Educational purposes”, 2005, URL (in Spanish)

12. Juan J.Sorlí, “Educational Applications of Antenna Radiation using 3D-FDTD”,2005, URL (in Spanish)

13. Albert Miquel, “Educational Tool to Analyze Smart Antennas”, 2006, URL (in Catalan)

14. Daniel Pérez, “Microstrip Design Using Stacked Elements for Handset Phones”, 2006, URL (in Spanish)

15. Arnau Cabedo, “Broadband Antennas for 2G, 3G, WiFi, WLAN and Bluetooth Applications for New Generation Handsets”, 2006, URL (in Spanish). Best Master Degree Thesis in Fundamentals and Basic Information and Communication Technologies and their Applications given by Colegio Oficial de Ingenieros de Telecomunicación (COIT), XXVIII Edition. 2007

16. David Aguilar, “Analysis and Design of FM Antennas for Handset Phones”,2006, URL (in Spanish)

17. Marc Miret, “Educational Tool using Method of Moments: Analysis of Dipole Antennas”, 2007, URL (in Spanish)

18. Jordi Vergés, “FM Antenna Techniques for Wireless/Handset Devices”, 2007, URL (in Spanish). Best Master Degree Thesis in Advanced Mobile Communications given by Colegio Oficial de Ingenieros de Telecomunicación (COIT) and the VODAFONE foundation, XXIX Edition. 2008

19. Juanjo Arenas, “Analysis and Design of Balanced Antennas for Wireless Devices”, 2008, UPC (in Spanish)

20. Laura González, “Antenna Materials and its Interaction with the Human Head”, 2008, UPC (in Spanish)

21. Iván Sanz, “High-Directivity Techniques for Microstrip Antennas”, 2008, UPC (in Spanish)

22. Cristina Torres, “Diversity Antenna Systems for Mobile/Wireless Applications”, 2008, URL (in Spanish)

23. Antoni Pladevall, “On the Behavior of Small Handset Antennas and Human Interaction at FM band”,2008, URL (in Spanish)

24. Cristina Picher, “Sensitivity Improvement and Incorporation of FM Service in Mobile Handset Antennas”, 2009, URL (in Spanish)

25. Cristina Picher, “Multiband Handset Antennas with Slotted Ground Planes: Human Head Interaction”, 2009, URL (in Spanish) (double degree)

26. Xavier Paüls, “Transmission Line having Negative Index of Refraction”, 2009, URL (in Spanish)

27. Sergi Risco, “Human Interaction with Two Different kind of Handset Multiband Antennas: PIFA and Coupled Monopoles”, 2010, URL (in Spanish)

28. Rafael Valera, “Educational tool to Analysis Slots and Reflectors using FDTD”,2012, URL (in Spanish)

29. Jesús Martín, “Analysis and Design of a Microstrip Patch Array at the ISM 2.4GHz band”,2012, URL (in Spanish)

30. Xavier Sans, “Viability Analysis of the Radio Energy Harvesting”, 2012, URL (in Spanish)

31. Víctor Diaz, “Multiband MIMO techniques for handset devices based on ground plane boosters”, 2012, URL (in Spanish)

32. Sheila Góngora, “Analysis and Design of Compact Ground Plane Booster for Smartphones and Laptops”, 2012, URL (in Spanish)

33. Yolanda Cobo, “Multiband Ground Plane Booster Distributed Antenna System for Wireless Devices Robust to Human Loading”,2012, URL (in Spanish)

34. José Luis Leiva, “Analysis and Design of Distributed Antenna Systems Based on Booster Antenna Technology with Semcad”, 2013, URL (in Spanish)

35. Adrian Bujalance, “Multiband Compact Radiating Systems with Ground Plane Booster Technology for Handset Devices”, 2013, URL (in Spanish)

36. Alfonso Álamo, “Characterization of MIMO antennas”, 2013, URL (in Spanish)

37. Yolanda Cobo (double degree), “MIMO System Combining a PIFA Antenna and Ground Plane Booster Antenna Technology”, 2014, URL (in Spanish)

38. Norman Toporcer, “Design and Performance Assessment of Ground Plane Boosters with a Bar Form Factor”, 2014, UPC (in English)

39. Gabriel Galindo, “Integration of the Ground Plane Booster Antenna Technology in Handset Devices”, 2014, UAB (in Spanish)

40. José Luis Leiva (double degree), “Electric and Magnetic Ground Plane Boosters for MIMO Antenna Systems”, 2014, URL (is Spanish)

41. Adrián Bujalance (double degree) ,Compact Multiband Architectures based on Ground Plane Booster Antenna Technology”, 2014, URL (is Spanish)

42. Albert Argenté, “Virtual Antenna Tech. for Mobile Telephony: Decoupling Networks for MIMO 2x2 LTE700 Systems with Ground Plane Boosters”, 2014, UPC (in Spanish)

43. Victor Febles, “Non-ionizing radiation effects on the human body”, 2015, URL-UOC (in Spanish)

44. Miguel Valle,LTE Mobile Phone Network: radio planning in the town of Rota”, 2016, URL-UOC (in Spanish)

45. Marc Ribó, “Analysis of Electromagnetic Band Gap Structures”, 2017, URL-UOC (in Spanish)

46. Sergi Díaz, “Water as a Radiating Element: Design of a Microstrip Patch Antenna”, 2017, URL (in Spanish)

47. María Vicente Jaramillo, “Design of Microstrip Patch Array”, 2018, URL-UOC (in Spanish)

48. Roberto Domínguez, “Analysis of Microstrip Patch Antennas and Higher-Order Modes” 2018, URL-UOC (in Spanish)

49. Tomás Rabinal, “Terahertz Antenna Technology”, 2018, URL-UOC (in Catalan)

50. Ignasi Anglada, “Virtual Antenna™ Technology for Smartwatches”, 2018, URL (in English)

51. Juan Antonio Reina, “Radiolink analysis at 900MHz”, 2019 URL-UOC (in Spanish)

52. Susana Pérez, “The next generation 5G mobile communications system and its IoT use case”, 2019 URL-UOC (in Spanish)

53. Jordi Miró, “Antenna design of microstrip patch and monopoles with water-based parts”, 2019, URL (in Spanish)

54. Namir Saffour, “4G Antenna Solutions for Small Wireless Platforms” 2019, UAB (in English)

55. Aitor Moreno, “On the Analysis and Design of 5G Antenna Arrays”, 2019 URL (in English)

56. Roc Grados, “Virtual Antenna™ Technology for Open-Source Hardware Platforms: IoT Smart-Tracking Applications”, 2019, URL (in English)

57. Rubén Molina, “Automatic Design of Multiband Matching Networks for Virtual Antenna™”, 2019, URL (in Spanish)

58. Ángela Cortés, “High Directivity Microstrip Patch Antennas using Superstrates” 2020, URL (in Spanish)

59. Marcos León, “Radio mapping tool for the analysis of electromagnetic exposure levels associated with mobile phone stations”, 2020 (in Spanish)

60. Danae Anahí, “Study and Design of a Broadband Train-Ground System for Suburban Railways”,2020 (in Spanish)

61. Jesús Díaz, “Simulation and analysis of the impact of different materials in the design of an antenna”,2020 (in Spanish)

62. Ximena Daza, “Microstrip Transparent Antennas for High-Directivity Applications”,2020, URL (in Spanish)

63. Eric Morcillo, “Design of HF antennas for NVIS communications”,2020, URL (in Spanish)

64. Maria Vallés, “Self-Diplexed Architectures for Antenna Boosters”,2020, URL (in Spanish)

65. Isabel Pantoja, “”,2021, URL

66. Ariadna Sevillano, “”,2021, URL

67. Adrián Ruiz, “Analysis and Design of Antennas Using Matlab”,2021

68. Oriol Serres, “RF control at the ALBA synchrotron”,2021

69. Cristina Gómez, “5G Mobile Networks: New Radio Evolution”,2021

70. Loubna Elmadi, “Dual-Band Antenna Booster for Tracking Devices” 2021, UAB (in English)

71. Elena García, 2021, URL

72. Alejandro Fernández, 2021, URL

73. Cristian Giménez, 2021

74. Pedro Rivera, 2021

75. Claudia Cardona, 2021

76. José L. Pina, 2021, URL

77. Nuria Ramos, URL, 2022

78. Marc Viñas, UPC, 2022

79. Antonio Ros, 2022

80. David Melgar, 2022

81. Alejandro Lerma, “”, 2022, URL

*     Ph.D theses (Dr. degree)

I have directed three Ph.Ds. One more is underway

1.     Aurora Andújar, “Ground Plane Booster Antenna Technology for Wireless Handheld Devices”, UPC, 2013 (in English)

2.     Jeevani Jayasinghe, “Optimization of the Performance of Microstrip Patch Antennas and Arrays by using Genetic Algorithms”, University of Peradeniya, Sri-Lanka, 2014 (in English)

3.     Cristina Picher, “Concentrated Ground Plane Booster Antenna Technology for Multiband Operation in Wireless Devices” UPC 2015 (in English)

 

     

       


 

 

 

 

 

 

 

 

 

 

 RESEARCH INTERESTS

*     Main activity: Small and Multiband antennas for Wireless Devices. Antenna Boosters

*     Member of the Research Group GRITS at Telecommunications Faculty Universitat Ramon LLull

*     Miniature, wideband, multiband, and high directivity printed antennas and arrays.

*    Fractal-shaped antennas

*    Antenna and Array Pattern Synthesis with Genetic Algorithms.

*    Base station antennas: multi-band cross-polarized antennas

*    Low cross-polarization and high-isolation techniques for BTS antennas

*    Automotive antennas: integration of antennas

*    Short Range Wireless and UWB antennas

*    Educational methods for electromagnetics

·      Finite Difference Time Domain (FDTD) for electromagnetic visualization

·      Method of Moments (MoM) for antenna analysis

·      Genetic Algorithms for antenna optimization

·      Neural Networks for antenna synthesis

*    Since 2001, I am leading research in antenna for wireless devices in the frame of University-Industry collaboration.

Some of the students involved in the research program have access to Semcad from Speag, NI-AWR Microwave Office from National Instruments, and OptenniLab from Optenni.

In particular, students are involved in Virtual Antenna™ Technology

 

Thanks to SPEAG for the licenses of the 3D FDTD full-wave simulation software SEMCAD X (www.semcad.com) for research and teaching purposes.

Thanks to Cadence for the licenses of Microwave Office (http://www.awrcorp.com/products) for research and teaching purposes.

Students Design Matching Networks for Virtual Antenna Technology, 2018

Thanks to Optenni for licenses of OptenniLab

Optenni Ltd

 

  

 

 

 

 

 

 

 

 

 

 

          PhD THESIS

Fractal and Broad-Band techniques on Miniature, Multifrequency, and High-Directivity Microstrip Patch Antennas.

                    (if you are interested in my Ph.D thesis, you can send me an e-mail :        jaume.anguera@ignion.io or jaume.anguera@salle.url.edu)

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*    PUBLICATIONS

More than 8100 citations.

h-index: h=52 (source Google Scholar)

*    Journal Papers

  1. Jaume Anguera, Carles Puente, and Carmen Borja, “A Procedure to Design Stacked Microstrip Patch Antenna Based on a Simple Network Model”. Microwave and Optical Technology Letters, vol.30 no. 3 pp.149-151 August 2001.
  2. Jaume Anguera, Carles Puente, Carmen Borja, Raquel Montero, and Jordi Soler, “Small and High Directivity Bowtie Patch Antenna based on the Sierpinski Fractal”, Microwave and Optical Technology Letters, vol.31, no. 3, pp.239-241, Nov 2001.
  3. Jaume Anguera, Carles Puente, Carmen Borja, Gisela Font, and Jordi Soler “A systematic method to design single-patch broadband microstrip patch antennas”, Microwave and Optical Technology Letters, vol.31, no. 3, pp.185-188, Nov 2001.
  4. Carles Puente, Jaume Anguera, Carmen Borja, and Jordi Soler” Fractal-Shaped Antennas and their Application to GSM 900/1800” The Journal of the Institution of British Telecommunications Engineers. vol.2, Part 3, July-Set. 2001.
  5. Jordi Soler, Carles Puente, and Jaume Anguera, “Extended multiperiodic traveling wave model for the accurate analysis of the radiation performance of the Sierpinski fractal-like multiband antenna”. Microwave and Optical Technology Letters, vol.36, no. 1, pp.67-70, Jan. 2003.
  6. Jaume Anguera, Carles Puente, Enrique Martínez, and Edouard Rozan, “The fractal Hilbert monopole: A two-dimensional wire”. Microwave and Optical Technology Letters, vol.36, no. 2, pp.102-104, Jan. 2003.
  7. Jaume Anguera, Gemma Montesinos, Carles Puente, Carmen Borja, and Jordi Soler, “An Under-Sampled High Directivity Microstrip Patch Array with a Reduced Number of Radiating elements Inspired on the Sierpinski Fractal”, Microwave and Optical Technology Letters, vol.37, no. 2, pp.100-103, April 2003.
  8. David Gala, Jordi Soler, Carles Puente, Carmen Borja, and Jaume Anguera, “Miniature Microstrip Patch Antenna Loaded With a Space-Filling Line Based on the Fractal Hilbert Curve”. Microwave and Optical Technology Letters, vol.38, no. 4, pp.311-312, Aug. 2003.
  9. Jaume Anguera, Gisela Font, Carles Puente, Carmen Borja, and Jordi Soler, “Multifrequency Microstrip Patch Antenna using Multiple Stacked Elements”, IEEE Microwave and Wireless Component Letters, vol.13, no. 3, March 2003.
  10. Jaume Anguera, Carles Puente, Carmen Borja, Nicolás Delbene, and Jordi Soler, “Dual frequency broadband stacked microstrip patch antenna”, IEEE Antennas and Wireless Propagation Letters vol.2, pp. 36-39, 2003
  11. Jaume Anguera, Enrique Martínez, Carles Puente, Carmen Borja, and Jordi Soler, “BroadBand Dual-Frequency Microstrip Patch Antenna With Modified Sierpinski Fractal Geometry”, IEEE Transactions on Antennas and Propagation, vol. 52, no. 1, pp.66-73, Jan. 2004.
  12. Jaume Anguera, Lluís Boada, Carles Puente, Carmen Borja, and Jordi Soler, “Stacked H-Shaped Microstrip Patch Antenna”, IEEE Transactions on Antennas and Propagation, vol.52, no. 4, pp.983-993, April 2004.
  13. Jordi Soler, Carles Puente, and Jaume Anguera, “Novel Combined Mod-P Multiband Antenna Structures Inspired on Fractal Geometries”, Microwave and Optical Technology Letters, vol.41, no. 5, pp.423-426, June 2004.
  14. Jordi Soler, Carles Puente, and Jaume Anguera, “Advances in Loading Techniques to Design Multifrequency Monopole Antennas, Microwave and Optical Technology Letters, vol.41, no. 6, pp.434-437, June 2004.
  15. Jaume Anguera, Carles Puente, Carmen Borja, and Jordi Soler, “Fractal-Shaped Antennas: a Review”. Wiley Encyclopedia of RF and Microwave Engineering, edited by K. Chang, vol.2, pp.1620-1635, 2005.
  16. Arnau Cabedo, Daniel Pérez, Lluís Vicent, and Jaume Anguera, “Herramienta educativa para el análisis de antenas microstrip: Diseño, estructura y programación (An educational tool for microstrip antennas analysis: Design; structure and programming)”, Revista IEEE América Latina Volume: 4,   Issue: 1,   Date: March  2006 (http://www.ewh.ieee.org/reg/9/etrans/vol4issue1March2006/Vol4issue1March2006TLA.htm)
  17. Jaume Anguera, Enrique Martínez, Carles Puente, Carmen Borja, and Jordi Soler, “Broad-Band Triple-Frequency Microstrip Patch Radiator Combining a Dual-Band Modified Sierpinski Fractal and a Monoband Antenna”, IEEE Transactions on Antennas and Propagation, vol.54, no. 11, pp.3367-3373, Nov.2006.
  18. Jaume Anguera, Carles Puente, Carmen Borja, and Jordi Soler, “Dual Frequency BroadBand Stacked Microstrip Antenna Using a Reactive Loading and a Fractal-Shaped Radiating Edge”, IEEE Antennas and Wireless Propagation Letters vol.6, pp. 309-312, 2007.
  19. Jaume Anguera, Alfonso Sanz, Young-Jik Ko, Carmen Borja, Carles Puente, and Jordi Soler, “Theoretical and Practical experiments for a Single Antenna Gain Testing Method: Applications to Wireless Devices”, Microwave and Optical Technology Letters, vol.49, no. 8, pp.1781-1785, August 2007.
  20. David Aguilar, Jaume Anguera, Miquel Ribó, and Carles Puente, “Small handset antenna for FM reception”, Microwave and Optical Technology Letters, vol.50, no. 10, pp.2677-2683, October 2008.
  21. Jaume Anguera, Jean-Pierre Daniel, Carmen Borja, Josep Mumbrú, Carles Puente, Tiphaine Leduc, Nancy Laeveren, and Peter Van Roy, “Metallized Foams for Fractal-Shaped Microstrip Antennas”, IEEE Antennas and Propagation Magazine, vol.50, no. 6, Dec. 2008, pp.20-38.

 

The portrait shows a metalized foam having the Koch fractal patterns

 

  1. Aurora Andújar, Jaume Anguera, Carles Puente, and Antonio Pérez, “On the radiation pattern of the L-shaped wire antenna”, Progress In Electromagnetics Research M, Vol. 6, 91-105, 2009
  2. Cristina Picher, Jaume Anguera, Arnau Cabedo, Carles Puente, and Sungtek Kahng, “Multiband handset antenna using slots on the ground plane: considerations to facilitate the integration of the feeding transmission line”, Progress In Electromagnetics Research C, Vol. 7, 95-109, 2009.
  3. Arnau Cabedo, Jaume Anguera, Cristina Picher, Miquel Ribó, and Carles Puente, “Multi-Band Handset Antenna Combining a PIFA, Slots, and Ground Plane Modes”, IEEE Transactions on Antennas and Propagation, vol.57, no. 9, Sep. 2009, pp.2526-2533.
  4. Juan J. Arenas, Jaume Anguera, and Carles Puente, “Balanced and single-ended handset antennas: free space and human loading comparison, Microwave and Optical Technology Letters, vol.51, no. 9, pp.2248-2254, Sep 2009.
  5. Jordi Vergés, Jaume Anguera, Carles Puente, and David Aguilar, “Analysis of the human body on the radiation of FM handset antenna”, Microwave and Optical Technology Letters, vol.51, n11, pp.2588-2590, November 2009.
  6. Jaume Anguera, Albert Camps, Aurora Andújar, and Carles Puente, “Enhancing the robustness of handset antennas to finger loading effects”, Electronics Letters, vol.45, no. 15, pp-770-771, July 2009.
  7. Jaume Anguera, Carles Puente, and Carmen Borja, “Dual Frequency Broadband Microstrip Antenna With a Reactive Loading and Stacked Elements”, Progress In Electromagnetics Research Letters, Vol. 10, 1-10, 2009.
  8. Jaume Anguera, Iván Sanz, Josep Mumbrú, and Carles Puente, “Multi-Band Handset Antenna with a Parallel Excitation of PIFA and Slot Radiators”, IEEE Transactions on Antennas and Propagation, vol.58, no. 2, pp.348-356, Feb.2010.
  9. Sergio Risco, Jaume Anguera, Aurora Andújar, Antonio Pérez, and Carles Puente, “Coupled Monopole Antenna Design for Multiband Handset Devices”, Microwave and Optical Technology Letters, vol.52, no. 10, pp.359-364, Feb. 2010.
  10. Jaume Anguera, Jean-Pierre Daniel, Carmen Borja, Josep Mumbrú, Carles Puente, Tiphaine Leduc, Khalid Sayegrih, and Peter Van Roy, “Metallized Foams for Antenna Design: Application to Fractal-Shaped Sierpinski-Carpet Monopole”, Progress In Electromagnetics Research, PIER 104, 239-251, 2010.
  11. Aurora Andújar, Jaume Anguera, and Carles Puente, “Ground Plane Boosters as a Compact Antenna Technology for Wireless Handheld Devices”, IEEE Transactions on Antennas and Propagation, vol.59, no. 5, pp.1668-1677, May.2011.
  12. Jaume Anguera, Aurora Andújar, and Carles Puente, “A Mechanism to Electrically Enlarge the Ground Plane of Handset Antennas: a Bandwidth Enhancement Technique”, Microwave and Optical Technology Letters, vol.53, no. 7, pp.1512-1517, July 2011.
  13. Antoni Pladevall, Cristina Picher, Aurora Andújar, and Jaume Anguera, “Some Thoughts on Human Body Effects on Handset Antenna at the FM Band”, Progress In Electromagnetics Research, M Vol. 19, 121-132, 2011
  14. Cristina Picher, Jaume Anguera, Aurora Andújar, Carles Puente, and Sungtek Kahng, “Analysis of the Human Head Interaction in Handset Antennas with Slotted Ground Planes”, IEEE Antennas and Propagation Magazine, vol.54, no. 2, pp.36-56, April 2012.
  15. Sergio Risco, Jaume Anguera, Aurora Andújar, Cristina Picher, and Javier Pajares, “Comparison of a Monopole and a PIFA Handset Antenna in the Presence of the Human Head”, Microwave and Optical Technology Letters, vol.54, no. 2, pp.454-459, Feb. 2012.
  16. Jaume Anguera, Aurora Andújar, Cristina Picher, Laura González, Carles Puente, and Sungtek Kahng, “On the Behavior of Several Antenna Topologies Near the Human Head at the 2.4-2.5GHz band, Microwave and Optical Technology Letters, vol.54, no. 8, pp.1911-1916, Aug. 2012.
  17. J. M. J. W. Jayasinghe, D.N. Uduwawala, and Jaume Anguera, “Design of Dual Band Patch Antennas for Cellular Communications by Genetic Algorithm Optimization”, International Journal of Engineering & Technology, vol.1, no. 1, pp.26-43, 2012.
  18. Aurora Andújar, Jaume Anguera, Yolanda Cobo, and Cristina Picher, “Distributed Antenna Systems for Wireless Handheld Devices”, IEEE Transactions on Antennas and Propagation, vol.60, no. 10, pp.4830-4837, October 2012.
  19. Aurora Andújar, Jaume Anguera, Cristina Picher, and Carles Puente, “Human Head Interaction Over Ground Plane Booster Antenna Technology:  Functional and Biological Analysis”, Progress In Electromagnetics Research, B Vol. 41, pp-153-185, 2012.
  20. Aurora Andújar and Jaume Anguera, “On the Radiofrequency System of Ground Plane Booster Antenna Technology”, Electronics Letters, vol.48, no. 14, pp. 815-817, July 2012
  21. Jaume Anguera and Aurora Andújar, “Ground Plane Contribution in Wireless Handheld Devices using Radar Cross Section Analysis”, Progress In Electromagnetics Research M, vol.26, pp-101-114, 2012
  22. Aurora Andújar and Jaume Anguera, “Multiband Coplanar Ground Plane Booster Antenna Technology”, Electronics Letters, vol.48, no. 21, pp. 1326-1328, Oct. 2012
  23. J. M. J. W. Jayasinghe, Jaume Anguera, and D.N. Uduwawala, “A simple design of multi band microstrip patch antennas robust to fabrication tolerances for GSM, UMTS, LTE, and Bluetooth applications by using genetic algorithm optimization" Progress In Electromagnetics Research M, Vol. 27, 255-269, 2012
  24. Aurora Andújar, Jaume Anguera, José L. Leiva, and Cristina Picher, “In-phase versus Out-phase Distributed Antenna Systems for Wireless Handheld Devices”, IEEE Transactions on Antennas and Propagation, vol.61, no. 1, pp-346-353, Jan. 2013.
  25. Aurora Andújar and Jaume Anguera, “Magnetic Boosters for Multi-band Operation”, Microwave and Optical Technology Letters, vol.55, no. 1, pp.65-75, January 2013
  26. Cristina Picher, Jaume Anguera, Adrián Bujalance, Aurora Andújar, and Carles Puente, “Analysis of a Multiband Monopole Handset Antenna combined with a Slotted Ground Plane”, Microwave and Optical Technology Letters, vol.55, no. 1, pp.173-180, Jan. 2013
  27. Jaume Anguera, Aurora Andújar, Minh-Chau Huynh, Charlie Orlenius, Cristina Picher, and Carles Puente, “Advances in Antenna Technology for Wireless Handheld Devices”, International Journal on Antennas and Propagation, Volume 2013, Article ID 838364.

 

The paper can be downloaded here

 

 

  1. Jaume Anguera, Aurora Andújar, and Carlos García, “Multiband and Small Coplanar Antenna System for Wireless Handheld Devices”, IEEE Transactions on Antennas and Propagation, vol.61, no.  7, pp. 3782-3789, July 2013.
  2. J. M. J. W. Jayasinghe, Jaume Anguera, and D.N. Uduwawala, “A High-Directivity Microstrip Patch Antenna Design by Using Genetic Algorithm Optimization”, Progress In Electromagnetics Research, C Vol. 37, pp-131-144, 2013
  3. Adrián Bujalance, Cristina Picher, Jaume Anguera, Aurora Andújar, and Carles Puente, “Influence of handset components into the behavior of a Handset Antenna in a Slotted Ground Plane”, Microwave and Optical Technology Letters, vol.55, no. 8, pp.1770-1779, Aug. 2013
  4. Aurora Andújar, Jaume Anguera, and Yolanda Cobo, “Distributed Systems Robust to Hand Loading based on Non-Resonant Elements”, Microwave and Optical Technology Letters, vol.55, no. 10, pp.2307-2317, Oct. 2013.
  5. J. M. J. W. Jayasinghe, Jaume Anguera, and D.N. Uduwawala, “Genetic Algorithm Optimization of a High-Directivity Microstrip Patch Antenna Having a Rectangular Profile”, Radioengineering, Vol. 22, No. 3, September 2013, pp.700-707
  6. P. S. R. Chowdary, A. Mallikarjuna Prasad, P. Mallikarjuna Rao, and Jaume Anguera, “Simulation of Radiation Characteristics of Sierpinski Fractal Geometry for Multiband Applications” International Journal of Information and Electronics Engineering vol. 3, no. 6, pp. 618-621, 2013.
  7. Aurora Andújar and Jaume Anguera, “MIMO Multiband Antenna System Combining Resonant and Non-Resonant Elements”, Microwave and Optical Technology Letters, vol.56, no. 5, pp.1076-1084, May 2014.
  8. J. M. J. W. Jayasinghe, Jaume Anguera, and D.N. Uduwawala, and Aurora Andújar, “Genetic algorithm optimization of microstrip patch antennas for high-directivity applications”, International Journal of Electronics Letters, Accepted paper
  9. Cristina Picher, Jaume Anguera, Aurora Andújar, and Adrián Bujalance, “Non-resonant element in a slotted ground plane for multiband antenna operation”, ETRI Journal, vol.36, no.  5, pp. 835- 840, October 2014.
  10. Albert. M. Sánchez, Miquel Ribó, LLuis Pradell, Jaume Anguera, and Aurora Andújar, “CPW balun for printed balanced antennas”, Electronics Letters, vol.50, no. 11, pp. 785-786, May 2014.
  11. Cristina Picher, Jaume Anguera, Aurora Andújar, Carles Puente, and Adrián Bujalance, “Concentrated Ground Plane Booster Antenna Technology for Multiband Operation in Handset Devices”, Radioengineering, Vol. 23, no. 4, Dec. 2014. pp.1061-1070.
  12. Jeevani W. Jayasinghe, Disala Uduwawala, and Jaume Anguera, “Design of a Genetic Microstrip patch Antenna with Broadside Radiation for GSM Applications”, International Journal of Scientific World, vol.2, no. 2, pp 84-87, 2014.

61. Jeevani W. Jayasinghe, Disala Uduwawala, and Jaume Anguera, “Increasing the Directivity of a Microstrip Patch Array by Genetic Optimization”, Journal of the National Science Foundation of Sri Lanka, vo9l.43, no. 1, pp.83-89, 2015.

62. José Luis Leiva, Aurora Andújar, Jaume Anguera, “On the behavior of a compact antenna system with non-resonant elements:  human head analysis”, International Journal of Electronics, vol.102, no. 11, pp.1943-1962, 2015

63. Aurora Andújar and Jaume Anguera, “MIMO Multiband Antenna System with Non-Resonant Elements”, Microwave and Optical Technology Letters, vol.57, no. 1, pp.183-190, Jan. 2015

64. J. M. J. W. Jayasinghe, Jaume Anguera, and D.N. Uduwawala, and Aurora Andújar, “Non-uniform overlapping method in designing microstrip patch antennas using genetic algorithm optimization”, International Journal on Antennas and Propagation, Volume 2015, Article ID 805820.

65. P. Satish Rama Chowdary, A. Mallikarjuna Prasad, P. Mallikarjuna Rao, and Jaume Anguera, “Design and Performance Study of Sierpinski Fractal Based Patch Antennas for Multiband and Miniaturization Characteristics”, Wireless Personal Communications, Springer, 2015, pp.1-18.

66. J. M. J. W. Jayasinghe, Jaume Anguera, and D.N. Uduwawala, “On the behavior of several fitness functions for genetically optimized microstrip antennas”, International Journal of Scientific World, vol.3 no. 1, pp.53-58, 2015.

67. Mohammad Alibakhshi-Kenari, Mohammad Naser-Moghadasi, Ramazan Ali Sadeghzadeh, Aurora Andújar, and Jaume Anguera, “Designing an Ultra Wide-Band Electromagnetic Waves Receiver with New Architecture for RF and Wireless Applications”, International Journal of Microwaves and Wireless Technologies, 2015.

68.  Sungtek Kahng, Jinsu Jeon, Jaume Anguera, and J. Taejoon Park, "A Compact MIMO Antenna using CRLH Configuration Double-Layered Folded Ring Radiations with Planar Mushroom Decoupling Structure", IEEE Antennas and Propagation Magazine, vol.57, no. .2, pp.123,130, April 2015.

69. J. M. J. W. Jayasinghe, Jaume Anguera, and D.N. Uduwawala, “High-directivity genetic microstrip patch antenna”, International Journal of Electronics Letters, 2015

70.  Mohammad Alibakhshi Kenari, Mohammad Naser-Moghaddasi, Mohammad, Bal Virdee, Aurora Andújar, and Jaume Anguera, “Compact Antenna based on a Composite Right/Left Handed Transmission Line”, Microwave and Optical Technology Letters, vol.57, no. 8, pp.1785-1788, August 2015.

71. Mohammad Alibakhshi Kenari, Aurora Andújar, and Jaume Anguera, “New Compact Leaky-Wave Antenna with Beam Steering”, Microwave and Optical Technology Letters, vol.58, no. 1, pp.214-217, June 2016.

72. Cristina Picher, Jaume Anguera, Adrián Bujalance, and Aurora Andújar, “Ground Plane Booster Antenna Technology using a Self-Diplexed Matching Network for Multiband Operation”, Microwave and Optical Technology Letters, vol.58, no. 2, pp.453-461, February 2016.

73. Jaume Anguera, Cristina Picher, Adrián Bujalance, and Aurora Andújar, “Ground Plane Booster Antenna Technology for Smartphones and Tablets”, Microwave and Optical Technology Letters, vol.58, no. 6, pp.1289-1294, June 2016.

74. J. M. J. W. Jayasinghe, Jaume Anguera, and D.N. Uduwawala, and Aurora Andújar, “A Multipurpose Genetically Engineered Microstrip Patch Antennas: Bandwidth, Gain, and Polarization”, Microwave and Optical Technology Letters, vol.59, no. 4, pp.941-949, April 2017.

75. Luis Grau, Aurora Andújar, and Jaume Anguera, “On the Isolation of a MIMO 2 x 2 Antenna System using Non-Resonant Elements: 1.71GHz-2.69GHz case study”, Microwave and Optical Technology Letters, vol. 59, no. 9, pp.2348-2353, Sep. 2017.

76.  Chakravarthy VVSSS, Chowdary PSR, Ganapati Panda, Jaume Anguera, Aurora Andújar, and Babita Majhi, “On the Linear Antenna Array Synthesis Techniques for Sum and Difference Patterns using Flower Pollination Algorithm”, Springer Nature Arab Journal of Science and Engineering, DOI 10.1007, Aug. 2017.

77. Sanjeev Kumar, Rajesh Kumar Vishwakarma, Ravi Kumar, Jaume Anguera, and Aurora Andújar, “Slotted Circularly Polarized Microstrip Antenna for RFID Application”, Radioengineering, Vol. 26, no.4, Dec.2017, pp. 1025-1032.

78. Jaume Anguera, Aurora Andújar, and Carles Puente, “Antenna-Less Wireless: A Marriage Between Antenna and Microwave Engineering”, Microwave Journal (invited paper), vol.60, no.10, October 2017, pp.22-36.

The portrait shows ground plane boosters on wireless devices (the small cubes in the picture).

 

You can download the paper here

And also in Chinese.

 

You can download the paper here

 

 

79. Tanweer Ali, Rajashekhar C. Biradar, Aurora Andújar, and Jaume Anguera, “A Miniaturized Metamaterial Slot Antenna for Wireless Applications”, International Journal of Electronics and Communications, 82, 2017, pp.368-382.

80. Chowdary S.R. Paladuga, Chakravarthy V.S.S.S. Vedula, Jaume Anguera, Rabindra K. Mishra, and Aurora Andújar, “Performance of Beamwidth Constrained Linear Array Synthesis Techniques Using Novel Evolutionary Computing Tools”, Applied Computational Electromagnetics Society Journal, 2017.

81. Jaume Anguera, Aurora Andújar, Sergio Benavente, Jeevani Jayasinghe, and Sungtek Kahng, High-Directivity Microstrip Antenna with Mandelbrot Fractal Boundary”, IET Microwaves, Antennas & Propagation, vol. 12, Issue 4, 28 March 2018, p. 569 – 575.

82. V. V. S. S. Sameer Chakravarthy, P. S. R. Chowdary, Suresh Chandra Satpathy, Sudheer Kumar Terlapu, and Jaume Anguera, “Antenna Array Synthesis Using Social Group Optimization”, Microelectronics, Electromagnetics and Telecommunications, Lecture Notes in Electrical Engineering 471, Springer, 2018.

  1. Tanweer Ali, Mohammad Saadh AW, R. C Biradar, Jaume Anguera, and Aurora Andújar, “A Miniaturized Metamaterial Slot Antenna for Wireless Applications”, Microwave and Optical Technology Letters, 60, pp. 2060-2068, 2018.
  2. Aurora Andújar, Yolanda Cobo, and Jaume Anguera, “Effects of a Phantom Hand on a Non-Resonant Element for a 2.5GHz Smartwatch Antenna”, International Journal of Electronics and Communications, vol. 98, pp. 1-7, Jan. 2019.
  3. J. M. J. W. Jayasinghe, Aurora Andújar, and Jaume Anguera, “On the properties of Sierpinski Gasket Fractal Microstrip Antennas”, Microwave and Optical Technology Letters, 61, pp. 772-776, 2019.
  4. Aurora Andújar, José L. Leiva, Jaume Anguera, Cor Schepens, and Roberto Gaddi, “Chip Antenna-Antenna Tuner Combo Cover LTE Bands”, Microwave Journal (invited paper), vol.62, no.1, Jan. 2019, pp.70-78.
  5. Jaume Anguera, Aurora Andújar, Guzmán Mestre, Jussi Rahola, and Jaakko Juntunen, “Design of Multiband Antenna Systems for Wireless Devices Using Antenna Boosters”, IEEE Microwave Magazine, Dec. pp.102-114, 2019.

 

See our publication at: https://ieeexplore.ieee.org/document/8894610

 

 

  1. V. V. S. S. S. Chakravarthy, P. S. R. Chowdary, Suresh Chandra Satapathy, Jaume Anguera and Aurora Andújar, “Social Group Optimization Algorithm for Pattern Optimization in Antenna Arrays”, Studies in Computational Intelligence vol. 828, Springer, 2019, pp.267-303 (book chapter).
  2. Jaume Anguera, Aurora Andújar, Carles Puente, “Virtual Antenna™: Easy Design of IoT Devices with Embedded Antennas”, Microwave Engineering Europe, Sep-Oct, 2019
  3. Warsha Balani, Tanweer Ali, Mrinal Sarvagya, Manohara Pai, Jaume Anguera, Aurora Andújar, “Design Techniques of Super wideband Antenna –Existing and Future Prospective”, IEEE Access, vol. 7, pp. 141241-141257, 2019.
  4. Jaume Anguera, Aurora Andújar, Jeevani Jayasinghe, V. V. S. S. Sameer Chakravarthy, P. S. R. Chowdary, Tanweer Ali, Joan L. Pijoan, Carlo Cattani, “Fractal Antennas: An Historic Perspective”, Fractal and Fractional, 2020.
  5. Jaume Anguera, Aurora Andújar, Jeevani Jayasinghe, “High Directivity Microstrip Patch Antennas Perturbing TModd-0 modes”, IEEE Antennas and Wireless Propagation Letters, vol.19, no. 1, pp. 39-43, 2020
  6. Mohammad Saadh AW, Poonkuzhali Ramaswamya, Tanweer Ali, Manohara Pai M M, Jaume Anguera, “A Compact Rectangular Slot Yagi-Uda Antenna for Wireless Applications”, Journal of Instrumentation, Accepted paper 2020.
  7. Jaume Anguera, Aurora Andújar, José L. Leiva, Yolanda Cobo, Joakim Tønnessen, E. Rindalsholt, Rune Brandsegg, “Virtual Antenna™ provides mobile and GPS connection in the Thingy:91 cellular IoT module”, Everything RF, May 2020.

 

See our publication at: https://cdn.everythingrf.com/live/Virtual_Antenna_for_Thingy91.pdf

 

 

 

95. Tanweer Ali, Mohammad Saadh AW, Kavitha Ashwath, Poonkuzhali R., and Jaume Anguera, “A uniquely shaped MIMO antenna on FR4 material to enhance isolation and bandwidth for wireless applications”, International Journal of Electronics and Communications, June 2020.

96. Jaume Anguera, Aurora Andújar, José L. Leiva, Carles Puente, Raquel Arribas, and Yolanda Cobo, “Optimizing Wireless Connectivity with Embedded Antennas”, Microwave Journal, June 12, 2020. Paper is available here: https://www.microwavejournal.com/articles/34113-optimizing-wireless-connectivity-with-embedded-antennas

97. Jaume Anguera, Aurora Andújar, Xavier Vilasís, “From Kirchhoff Voltages to Maxwell Waves”, FERMAT, Volume 40, Article 1, Jul.-Aug., 2020. You can download the paper here

98. Jaume Anguera, Carles Puente, and Carmen Borja, “Fractal Antenna Engineering”, Wiley Encyclopedia of RF and Microwave Engineering, accepted paper, 2020.

99. Chakravarthy Vedula, Paladuga Satish Rama Chowdary, Jaume Anguera, Suresh Satapathy, “Pattern Recovery in Linear Arrays Using Grasshopper Optimization Algorithm”, Chapter book: Microelectronics, Electromagnetics and Telecommunications, January 2021.

100.                 Warsha Balani, Mrinal Sarvagya, Tanweer Ali, Ajit Samasgikar, Saumya Das, Pradeep Kumar, Jaume Anguera, “Design of SWB antenna with triple band notch characteristics for multipurpose wireless applications”, Applied Science, accepted paper 2021

101.                 Arjun Surendran, Aravind B, Tanweer Ali, Omprakash Kumar, Pradeep Kumar, Jaume Anguera, “A Dual-Band Modified Franklin mm-Wave Antenna for 5G Wireless Applications”, Applied Science, accepted paper 2021

102.                 Manel Benavides, Aurora Andújar, David Miralles, Jaume Anguera, “Effects on human body and conductive body over a Near Field Communication Antenna”, Journal of Electromagnetic Waves and Applications, accepted paper 2021.

103.                 Jaume Anguera, Aurora Andujar, José L. Leiva, Oriol Massó, Joakim Tonnesen, Endre Rindalsholt, Rune Brandsegg, Roberto Gaddi, “Reconfigurable Multiband Operation for Wireless Devices Embedding Antenna Boosters”. Electronics 2021, 10, 808. You can download the paper here

104.                 Jaume Anguera and Aurora Andújar, “Antenna Booster Technology”, Wiley Encyclopedia of RF and Microwave Engineering, accepted paper, 2022.

105.                 Joan L. Pijoan, Sergi Díaz, Aurora Andújar, Jaume Anguera, “Water dielectric microstrip patch antenna: case study at ISM 2.4 GHz”, Journal of Electronics, DOI: 10.1080/00207217.2021.1914186

106.                 VVSSS Chakravarthy, PSR Chowdary, Nihad Dib, Jaume Anguera, “Elliptical antenna array synthesis using evolutionary computing tools”, Arabian Journal for Science and Engineering, 2021

107.                 Jaume Anguera and Aurora Andújar, “From R&D to Ignion”, IEEE Antennas and Propagation Magazine, vol. 64, n.4, 2021. You can download the paper here.

  1. Inzamam Ahmad, Shakir Ullah, Jalal U. Din, Sasik Ullah, Waseem Ullah, Usman Habib, Salahuddin Khan, Jaume Anguera,Maple-Leaf Shaped Broadband Optical Nano-Antenna with Hybrid Plasmonic Feed for Nano-Photonic Applications”, Appl. Sci. 202111, 8893. https://doi.org/10.3390/app11198893. You can download the paper here.
  2. M. Karthikeyan, R. Sitharthan, Tanweer Ali, Sameena Pathan, Jaume Anguera, D. Shanmuga Sundar, “Stacked TShaped Strips Compact Antenna for WLAN and WiMAX Applications”, Wireless Personal Communications, October 2021.
  3. Aruna Veeraselvam, Gulam Nabi Alsath Mohammed, Kirubaveni Savarimuthu, Jaume Anguera, Jessica Constance Paul, Ram Kumar Krishnan, “Refractive Index based Terahertz Sensor Using Graphene for Biomedical Applications” Sensors 202121, 8151.
  4. Arebu Dejen, Jeevani Jayasinghe, Murad Ridwan and Jaume Anguera, “Genetically engineered tri-band microstrip antenna with improved directivity for mm-wave wireless application”, AIMS Electronics and Electrical Engineering, 6(1): pp.?-?, 2022
  5. J. Kulkarni, C. -Y. -D. Sim, R. K. Gangwar and J. Anguera, "Broadband and Compact Circularly Polarized MIMO Antenna With Concentric Rings and Oval Slots for 5G Application," in IEEE Access, vol. 10, pp. 29925-29936, 2022, doi: 10.1109/ACCESS.2022.3157914.
  6. Jaime Gui, Aurora Andújar, Jaume Anguera, “On the reuse of a matching network for IoT devices operating at 900MHz embedding antenna boosters”, Electronics 202211, 1267. https://doi.org/10.3390/electronics11081267. You can download the paper here.

 

See our publication here

 

  1. Jaume Anguera, Alejandro Fernández, Carles Puente, Aurora Andújar, Jaap Groot, “Antenna Boosters versus Flexible Printed Circuit Antennas for IoT Devices”. Signals 2022, 3, 326-340. https://doi.org/10.3390/signals3020021 . You can download the paper here.

See our publication here

 

  1. Arebu Dejen, Jeevani Jayasinghe, Murad Ridwan and Jaume Anguera, “Multi-band mm-Wave Wearable Antenna Synthesized with a Genetic Algorithm”, accepted paper at International Journal on Antennas and Propagation, 2022.
  2. Arebu Dejen, Murad Ridwan, Jaume Anguera, Jeevani Jayasinghe, “Millimeter Wave Cellular Communication Performances and Challenges: A Survey”, EAI Endorsed Transactions on Mobile Communications and Applications, vol. 7, no. 21, 2022.

 

 

 

 

 

 

*     International Conference Papers

 

  1. Jaume Anguera, Carles Puente, and Carmen Borja, "A Procedure to Design Wide-Band Electromagnetically-Coupled Stacked Microstrip Antennas Based on a Simple Network Model". IEEE Antennas and Propagation Society International Symposium, vol. II, pp.944-947, Orlando, USA July 1999.
  2. Carmen Borja, Carles Puente, Jordi Romeu, and Jaume Anguera, "Fractal Multiband Patch Antenna". IEEE Antennas and Propagation Society International Symposium, Davos 2000
  3. Jaume Anguera, Carles Puente, Jordi Romeu, Carmen Borja, and Gisela Font, "An Optimum Method to Design Probe-Fed Single-Layer Single-Patch Wideband Microstrip Antenna". AP2000 Millennium Conference on Antennas and Propagation Symposium, Davos, Switzerland April 2000.
  4. Carles Puente, Jaume Anguera, Jordi Romeu, Carmen Borja, Mònica Navarro, and Jordi Soler, "Fractal-Shaped Antennas and their applications to GSM 900 /1800". IEEE Antennas and Propagation Society International Symposium, Davos, Switzerland April 2000.
  5. Jaume Anguera, Carles Puente, Carmen Borja, and Jordi Romeu, “Miniature WideBand Stacked Microstrip Patch Antenna based on the Sierpinski Fractal Geometry”. IEEE Antennas and Propagation Society International Symposium, vol.3, pp.1700-1703, Salt Lake City, USA July 2000.
  6. Jaume Anguera, Carles Puente, Carmen Borja, and Raquel Montero, “Bowtie Microstrip Patch Antenna based on the Sierpinski Fractal”. IEEE Antennas and Propagation Society International Symposium, vol.3, pp. 162-165, Boston, USA July 2001.
  7. Gemma Montesinos, Jaume Anguera, Carles Puente, and Carmen Borja, “The Sierpinski fractal bowtie patch: a multifracton-mode antenna. IEEE Antennas and Propagation Society International Symposium, vol.4, pp.542-545, San Antonio, USA June 2002.

124.                 Jordi Soler, Carles Puente, and Jaume Anguera, “Challenges in the Numerical Analysis of Fractal-Shaped Antennas “. IEEE Antennas and Propagation Society International Symposium, San Antonio, USA June 2002.

125.                 Jaume Anguera, Carles Puente, Jordi Soler, “Miniature Monopole Antenna based on the Fractal Hilbert Curve”, IEEE Antennas and Propagation Society International Symposium, vol.4, pp.546-549, San Antonio, USA June 2002.

  1. Jaume Anguera, Gemma Montesinos, Carles Puente, Carmen Borja, and Jordi Soler, “High-Directivity Microstrip Array using High-Directivity Fractal-Based Elements”. 25th European Space Agency (ESA) Antenna Workshop on Satellite Antenna Technology, pp.59-62, 18-20 September 2002 ESTEC, Noordwijk, The Netherlands.
  2. Jordi Soler, Carles Puente, and Jaume Anguera, “Multifrequency Properties of Monopole Antennas Using Multilevel GroundPlanes Inspired on the Sierpinski Fractal Shape". IEEE Antennas and Propagation Society International Symposium, Columbus, USA June 2003.
  3. Jordi Soler, Carles Puente, and Jaume Anguera, “Novel Combined Mod-P Structures: a Complete Set of Multiband Antennas Inspired on Fractal Geometries". IEEE Antennas and Propagation Society International Symposium, Columbus, USA June 2003.
  4. Jaume Anguera, Gisela Font, Carles Puente, Carmen Borja, and Jordi Soler, “Multiple Parasitic Microstrip Antenna for Multifrequency Behaviour”. IEEE Antennas and Propagation Society International Symposium, vol.4, pp. 126-129, Columbus, USA June 2003.
  5. Jordi Soler, Carles Puente, and Jaume Anguera, “Solutions To Tailor the Radiation Patterns of 2D and 3D Multiband Antennas Based on the Sierpinski Fractal”. IEEE Antennas and Propagation Society International Symposium, Columbus, USA June 2003.
  6. Jordi Soler, Carles Puente, and Jaume Anguera, “Results on a New Extended Analytic Model To Understand The Radiation Performance of Mod-P Sierpinski Fractal Multiband Antennas". IEEE Antennas and Propagation Society International Symposium, Columbus, USA June 2003.
  7. Jaume Anguera, Gemma Montesinos, Carles Puente, Carmen Borja, and Jordi Soler, “A Microstrip Array Operating in a Fracton Mode”. IEEE Antennas and Propagation Society International Symposium, vol.3, pp.383-386, Columbus, USA June 2003.
  8. Jaume Anguera, Carles Puente, Gisela Font, Carmen Borja, and Jordi Soler, “Characterization of Fractal and Space-filling monopole Antennas using the Box-counting dimension”. IEEE Antennas and Propagation Society International Symposium, Columbus, USA June 2003.
  9. Carmen Borja, Marc Royo, Albert Algans, Jaume Anguera, and Carles Puente, “Impact of the Antenna Technology and the Antenna Parameters on the Performance of MIMO Systems”. IEEE Antennas and Propagation Society International Symposium, vol.2, pp. 507-510, Columbus, USA June 2003.
  10. Jaume Anguera, Gemma Montesinos, Carles Puente, Carmen Borja, and Jordi Soler, “Fracton-Mode Arrays using Microstrip Fractal Sierpinski Based Radiators”, Antenna Systems 2003, Denver, Colorado, Oct. 2003.
  11. Jordi Soler, Carles Puente, and Jaume Anguera, “Novel Combined Mod-P Multiband Antenna Elements inspired on fractal Geometries”, 27th ESA Antenna Technology Workshop on Innovative Periodic Antennas, Santiago de Compostela, Spain from 9-11 March 2004.
  12. Jaume Anguera, Carles Puente, Carmen Borja, and Jordi Soler, “Scanning properties in an under-sampled microstrip array using Sierpinski fractal-inspired elements”, 27th ESA Antenna Technology Workshop on Innovative Periodic Antennas, Santiago de Compostela, Spain from 9-11 March 2004.
  13. Jaume Anguera, Enrique Martínez, Carles Puente, Carmen Borja, and Jordi Soler, “Dual-Band BroadBand Microstrip Antenna Inspired in the Sierpinski Fractal”. IEEE Antennas and Propagation Society International Symposium, Monterey, USA June 2004.
  14. Jaume Anguera, Gemma Montesinos, Carles Puente, Carmen Borja, and Jordi Soler, “Scanning properties in fracton-mode microstrip arrays using elements inspired on the Sierpinski fractal”. IEEE Antennas and Propagation Society International Symposium, Monterey, USA June 2004.
  15. Jaume Anguera, Carmen Borja, Enrique Martínez, Carles Puente, and Jordi Soler, “Dual-Frequency Microstrip Patch Antennas based on the Sierpinski Fractal” Korean 2004 fall microwave and propagation conference, Soonchunhyang University, Asan-Si, Republic of Korea.
  16. Jaume Anguera, Enrique Martínez, Carles Puente, Carmen Borja, and Jordi Soler, “Triple-Band Broadband Microstrip Patch Antenna Inspired in the Sierpinski Fractal”. IEEE Antennas and Propagation Society International Symposium, Washington DC, USA July 2005.
  17. Lluís Vicent, Jaume Anguera, Elisabet Golobardes, David Badia, and Marc Segarra “Interactive multimedia contents and synchronous graphical communication tools for distance learning in Engineering Degrees”. Frontier in Education Symposium, FIE, Indianapolis, USA, October 2005.
  18. Jaume Anguera, Iván Sanz, Alfonso Sanz, Antonio Condes, David Gala, Carles Puente, and Jordi Soler, “Enhancing the performance of handset antennas by means of groundplane design”. IEEE International Workshop on Antenna Technology: Small Antennas and Novel Metamaterials (iWAT 2006), pp.29-32, New York, USA, March 2006.
  19. Jaume Anguera, Carmen Borja, Carles Puente, and Jordi Soler, “Dual-Band Array Using Fracton-Mode Microstrip Antenna Based on Sierpinski Fractal”. IEEE Antennas and Propagation Society International Symposium, Albuquerque, New Mexico, USA, July 2006.
  20. Jaume Anguera, Iván Sanz, Alfonso Sanz, Antonio Condes, Carles Puente, and Jordi Soler, “Multiband PIFA Handset Antenna by Means of Groundplane Design”, IEEE Antennas and Propagation Society International Symposium, Albuquerque, New Mexico, USA, July 2006.
  21. Sungtek Kahng and Jaume Anguera, “GA-Based Complex Image Green’s Functions for Solving Electromagnetic Coupling Through Material-Coated Slots of Metal Plates”, EMC Europe Barcelona – Spain 2006.
  22. Jaume Anguera, “The Mobile Phone and the Multi-Band Predicament”, Antenna Systems 2006, Washington, USA, Set. 2006.
  23. Lluís Vicent, Xavier Àvila, Jaume Anguera, David Badia, and José A. Montero, “Do Multimedia Contents increase the effectiveness of learning?”, Frontier in Education Symposium, FIE, pp.12-17, San Diego, USA, October 2006.
  24. Lluís Vicent, Xavier Àvila, Jaume Anguera, David Badia, and José A. Montero, “Appropriateness of e-learning resources for the development of transversal skills in the new European Higher Education Area”, FIE, San Diego, USA, October 2006.
  25. Jaume Anguera, Arnau Cabedo, Cristina Picher, Iván Sanz, Miquel Ribó, and Carles Puente, “Multiband Handset Antennas by Means of Groundplane Modification”. IEEE Antennas and Propagation Society International Symposium, pp.1253-1256, Honolulu, Hawaii, USA, June 2007.
  26. Jaume Anguera, Iván Sanz, Josep Mumbrú, and Carles Puente, “Multiband Handset Antenna Behaviour by Combining Pifa and a Slot Radiators”. IEEE Antennas and Propagation Society International Symposium, pp. 2841-2844, Honolulu, Hawaii, USA, June 2007.
  27. Lluís Vicent, Guillem Bou, Xavier Àvila, Jordi Riera, José A.Montero, and Jaume Anguera, “Which are the best e-learning tools for an Engineering Degree in the European Higher Education Area? ”, 7th IEEE International Conference on Advanced Learning Technologies, pp. 882-886, ICALT’07, Niigata, Japan.
  28. Lluís Vicent, Jordi Margalef, Jose Montero and Jaume Anguera, “Developing Transversal Skills in An On-line Theoretical Engineering Subject”, FIE, F3B-11 – F3B-12, Milwaukee, USA, October 2007.
  29. Jaume Anguera, Carlos Subías, Daniel Pérez, Arnau Cabedo, Vanessa Jordan, Juan J.Sorlí, Xavier Carroza, Albert Miquel, Antonio Pérez, David Badia, Jordi Margalef, and Lluís Vicent, “Antenna Theory Education Tool Using An Interactive and Movie-based Electronic Book”, FIE, S2C-8 – S2C-13, Milwaukee, USA, October 2007.
  30. Jordi Margalef, Lluís Vicent, Xavier Senmartí, Guillem Bou and Jaume Anguera, “The Teaching of Electronic Engineering: Guidelines for the Design of Training In and Out of the Classroom Setting”, FIE, pp. S3G-7 – S3G-11, Milwaukee, USA, October 2007.
  31. Jaume Anguera, Carmen Borja, and Carles Puente, “Microstrip Fractal-Shaped Antennas: A Review”, European Conference on Antennas and Propagation, EUCAP 2007.
  32. Jaume Anguera, David Aguilar, Jordi Vergés, Miquel Ribó, and Carles Puente, “Handset Antenna Design for FM Reception”. IEEE Antennas and Propagation Society International Symposium, San Diego, California, USA, July 2008.
  33. Jaume Anguera, Jordi Vergés, David Aguilar, Joan L.Pijoan, and Carles Puente, Handset antenna for FM reception: subjective evaluation and human effects”. IEEE Antennas and Propagation Society International Symposium, San Diego, California, USA, July 2008.
  34. Jaume Anguera, Jean-Pierre Daniel, Carmen Borja, Josep Mumbrú, Carles Puente, Tiphaine Leduc, Nancy Laeveren, and Peter Van Roy, On the behavior of the Koch Island Fractal-Shaped Microstrip Patch Antenna etched on a Metallized Foam”. IEEE Antennas and Propagation Society International Symposium, San Diego, California, USA, July 2008.
  35. Jaume Anguera, Laura González, Aurora Andújar, and Carles Puente, “Analysis of Several Antenna Topologies Operating at 2.4GHz Band close to human head". IEEE Antennas and Propagation Society International Symposium, Charleston, South Carolina, USA, June 2009.
  36. Aurora Andújar, Jaume Anguera, and Carles Puente, “A Systematic Method to Design Broadband Matching Networks. IEEE Antennas and Propagation Society International Symposium, Charleston, South Carolina, USA, June 2009.
  37. Jaume Anguera, Juan J.Arenas, Aurora Andújar, Carles Puente, and SungTek Kahng, “Comparing Balanced and Single-Ended Handset Antennas in Free Space and Human Loading Scenarios”. IEEE Antennas and Propagation Society International Symposium, Charleston, South Carolina, USA, June 2009.
  38. Sungtek Kahng, E. C. Shin, Geonho Jang, Jaume Anguera, J. H. Ju, and Jaehoon Choi, “A UWB Antenna Combined with the CRLH Metamaterial UWB Bandpass Filter Having the Bandstop at the 5 GHz- Band WLAN”. IEEE Antennas and Propagation Society International Symposium, Charleston, South Carolina, USA, June 2009.
  39. Jaume Anguera, Aurora Andújar, Carles Puente, Albert Camps, and Cristina Picher, “Mitigation of Finger Loading Effect in Handset Antennas”, European Conference on Antennas and Propagation, EuCAP 2010, Barcelona, Spain.
  40. Iván Sanz, Jaume Anguera, Aurora Andújar, Carles Puente, and Carmen Borja, “The Hilbert Monopole Revisited”, European Conference on Antennas and Propagation, EuCAP 2010, Barcelona, Spain.
  41. Cristina Picher, Jaume Anguera, Aurora Andújar, Carles Puente, and SungTek Kahng, “Analysis of the Specific Absorption Rate in Antennas with Slotted Ground Planes”, European Conference on Antennas and Propagation, EuCAP 2010, Barcelona, Spain.
  42. Aurora Andújar, Jaume Anguera, and Carles Puente, “A Systematic Method to Design Broadband matching Networks”, European Conference on Antennas and Propagation, EuCAP 2010, Barcelona, Spain.
  43. Carmen Borja, Jaume Anguera, Carles Puente, and Jordi Vergés, “How much can be reduced the internal FM antenna of Mobiles Phones, Yet Still Listening to the FM Radio Properly?”, European Conference on Antennas and Propagation, EuCAP 2010, Barcelona, Spain.
  44. Sungtek Kahng, Geonho Jang, and Jaume Anguera, “Metamaterial Dual-Band Bandpass Filters Using CRLH Zero-Order-Resonators and Improving its Intermediate Stopband”, European Conference on Antennas and Propagation, EuCAP 2010, Barcelona, Spain.
  45. Jaume Anguera, Laura González, Aurora Andújar, Cristina Picher, Carles Puente, and SungTek Kahng, “Comparison of several antenna topologies near the Human Head: a 2.4GHz case Study”, IEEE Antennas and Propagation Society International Symposium, Toronto, Canada, July 2010.
  46. Geonho Jang, SungTek Kahng, J. Ju, Jaume Anguera, and Jaehoon Choi “A Novel Metamaterial CRLH Zor Microstrip Patch Antenna Capacitively Coupled to a Rectangular Ring”, IEEE Antennas and Propagation Society International Symposium, Toronto, Canada, July 2010.
  47. Cristina Picher, Jaume Anguera, Aurora Andújar, Carmen Borja, Carles Puente, and SungTek Kahng, “Reuse of the mobile communication antenna for FM reception”, European Conference on Antennas and Propagation, EuCAP 2011, pp. 324-327, Rome, Italy.
  48. Jaume Anguera, Aurora Andújar, Yolanda Cobo, Cristina Picher, and Carles Puente, “Handset Antenna Array to Mitigate the Finger Loading Effect”, European Conference on Antennas and Propagation, EuCAP 2011, pp.611-614, Rome, Italy.
  49. Aurora Andújar, Jaume Anguera, and Carles Puente, “Ground Plane Boosters to Provide Multi-band Operation in Wireless Handheld Devices”, European Conference on Antennas and Propagation, EuCAP 2011, pp. 599-603, Rome, Italy.
  50. Seongryong Yoo, Sungtek Kahng, Geonho Jang, Jaume Anguera, and In-Gyu Yang, “Circular Polarization from a ZOR Patch-Coupled Rectangular Ring-Mushroom Antenna”, European Conference on Antennas and Propagation, EuCAP 2011, pp. 1097-1099, Rome, Italy.
  51. Seongryong Yoo, Sungtek Kahng, Geonho Jang, Se-gyoon Mok, Jaume Anguera, and Jaehoon Choi, “A Novel Metamaterial CRLH ZOR Circular Patch Antenna Capacitively Coupled to a Circular Ring”, IEEE Antennas and Propagation Society International Symposium, Spokane, Washington, USA, July 2011.
  52. Aurora Andújar, Jaume Anguera, Cristina Picher, and Carles Puente, “Ground Plane Booster Antenna Technology. Human Head Interaction: Functional and Biological Analysis”, European Conference on Antennas and Propagation, EuCAP 2012, Prague, Czech Republic, March 2012
  53. Cristina Picher, Jaume Anguera, Aurora Andújar, Carles Puente, and Adrián Bujalance, “Multiband Handset Antennas by Combining Monopoles and Intelligent Ground Planes”, European Conference on Antennas and Propagation, EuCAP 2012, Prague, Czech Republic, March 2012.
  54. Jaume Anguera, Aurora Andújar, Cristina Picher, Carles Puente, and Sungtek Kahng, “Analysis of Some Techniques to Enhance the Bandwidth of Handset Antennas Using Metallic Strips”, European Conference on Antennas and Propagation, EuCAP 2012, Prague, Czech Republic, March 2012.
  55. Seongryong Yoo, Kyungseuk Kahng, Sungtek Kahng, Inkyu Yang, Jeongho Ju, and Jaume Anguera, “The Design of CRLH-Based Compact LTE MIMO Antennas”, European Conference on Antennas and Propagation, EuCAP 2012, Prague, Czech Republic, March 2012.
  56. Aurora Andújar and Jaume Anguera, “Coplanar Non-Resonant Elements for Multiband Operation”, European Conference on Antennas and Propagation, EUCAP 2013, Gothenburg, Sweden, April 2013.
  57. Aurora Andújar and Jaume Anguera, “Non-Resonant Elements with a Simplified Radiofrequency System for Handset Devices”, European Conference on Antennas and Propagation, EUCAP 2013, Gothenburg, Sweden, April 2013.
  58. Jaume Anguera, Cristina Picher, Aurora Andújar, Sungtek Kahng, and Carles Puente, “Compact Multiband Antenna System for Smartphone Platforms”, European Conference on Antennas and Propagation, EUCAP 2013, Gothenburg, Sweden, April 2013.
  59. Kyungseuk Kahng, Inkyu Yang, Sungtek Kahng, Jaume Anguera, and Ju Yong Lee, “Design of Four MIMO Handset Antennas”, European Conference on Antennas and Propagation, EUCAP 2013, Gothenburg, Sweden, April 2013.
  60. Inkyu Yang, Sungtek Kahng, Kyungseok Kahng, Segyoon Mok, Seongryong Yoo, and Jaume Anguera, “Flat Metamaterial Antenna with Dual-Circular-Polarization at the -1st-Order-Resonance Mode, applicable to Reconfigurable RF Systems”, IEEE Antennas and Propagation Society International Symposium, Orlando, USA July 2013.
  61. Psr. Chowdary, A.M. Prasad, P. Mallikarjuna Rao, and Jaume Anguera, “On the Directivity and Multiband Characteristics of Sierpinski Fractal on Bowtie", International Conference on Industrial Engineering Science and Applications (IESA 2014) in NIT Durgapur, West Bengal, INDIA during April 2-4, 2014.
  62. Sungtek Kahng, Kyeongnam Jang, Jinsu Jeon, Inkyu Yang, Kyungseok Kahng, Se-Gyoon Mok, and Jaume AngueraWideband and Low-Profile Metamaterial Antennas for Aircrafts and Automobiles, EUCAP 2014, The Hague, The Netherlands, April 2014.
  63. Sungtek Kahng, Jinsu Jeon, and Jaume Anguera, “Small dual-band 3-way metamaterial power-divider with the phase-compensated outputs”, European Microwave Conference (EuMC), Rome, Italy, October 2014.
  64. Jeevani W. Jayasinghe, Disala Uduwawala, and Jaume Anguera, “Design of a Linearly-polarized High-Directivity Microstrip Patch Antenna”, 2015 IEEE 10th International Conference on Industrial and Information Systems, Peradeniya, Sri Lanka, 2015.
  65. Aurora Andújar and Jaume Anguera, “MIMO Antenna System for Smartphones Using Non-Resonant Elements”, European Conference on Antennas and Propagation, EUCAP 2016, Davos, Switzerland, April 2016.
  66. Jaume Anguera and Aurora Andújar, “A Non-Resonant Element for Multiband Operation in Smartphones and Tablets”, European Conference on Antennas and Propagation, EUCAP 2016, Davos, Switzerland, April 2016.
  67. Muhammad Kamran Khattak, Sungtek Kahng, Seon-woong Yoo, Aurora Andújar, and Jaume Anguera, Design of Metasurface-Backed Printed Dipoles”, European Conference on Antennas and Propagation, EUCAP 2016, Davos, Switzerland, April 2016
  68. V.S.S.S. Chakravarthy, P.S. Rchowdary, Rabindra K. Mishra, and Jaume Anguera, “On the Synthesis Techniques for Linear Arrays Using Novel Evolutionary Computing Tools”, 7th IEEE Indian Antenna Week 2016, Madurai, India, June 2016
  69. Jaume Anguera, Aurora Andújar, Jeevani Jayasinghe, and Disala Uduwawala, Muhammad Khattak and Sungtek Kahng, “Nature-Inspired High-Directivity  Microstrip Antennas: Fractals and Genetics, IEEE International Conference on Computational Intelligence and Communication Networks (CICN-2016)
  70. Aurora Andújar, Jaume Anguera, and Rosa Mª Mateo, “Multiband Non-Resonant Antenna System with Reduced Ground Clearance”, European Conference on Antennas and Propagation, EUCAP 2017, Paris, France, April 2017.
  71. Jaume Anguera, Aurora Andújar, Rosa Mª Mateo, and Sungtek Kahng, “A 4 x 4 MIMO Multiband Antenna System with Non-Resonant Elements for Smartphone Platforms”, European Conference on Antennas and Propagation, EUCAP 2017, Paris, France, April 2017
  72. Jaume Anguera, Aurora Andújar, Jussi Rahola, Jaakko Juntunen, “Synthesis of Multiband Matching Networks for Non-Resonant Antennas”, Computing and Electromagnetics CEM’17, Barcelona, Spain, June 2017.
  73. Slawomir Koziel, Jeevani W. Jayasinghe, Jaume Anguera, Qingsha S. Cheng, and Disala N. Uduwawala, “Optimization of High-Directivity Fan-Beam Antennas”, International Applied Computational Electromagnetics Society Symposium in China, Suzhou, August 2017.
  74. Mohammad Alibakhshikenari, Bal S. Virdee, Ernesto Limiti, Lotfollah Shafai, Aurora Andújar, and Jaume Anguera, “CRLH Metamaterial Transmission Line Based-Wideband Planar Antenna for Operation Across UHF/L/S-bands”, Metamaterial’2017, Marseille, France, August 2017.
  75. Mohammad Alibakhshikenari, Bal S. Virdee, Aurora Andújar, Jaume Anguera, Ernesto Limiti, and Lotfollah Shafai, “Frequency Beam Steering Antenna for Millimeter Wave Checkpoint Scanners”, EUMW European Microwave Week, Nuremberg, Germany, October,2017.
  76. Mohammad Alibakhshikenari, Bal S. Virdee, Aurora Andújar, Jaume Anguera, Ernesto Limiti, “EM Isolation Enhancement Based on Metamaterial Concept in Antenna Array System to Support Full-Duplex Application”, Asia Pacific Microwave Conference, AMPC-2017, Kuala Lumpur, Malaysia, November 2017.
  77. V V S S Sameer Chakravarthy, P S R Chowdary, Suresh Chandra Satpathy, Sudheer Kumar Terlapu,  Jaume Anguera, “Antenna Array Synthesis Using Social Group Optimization”, ICMEET-2017.
  78. Jeevani Jayasinghe, O.A. Saraereh, Jesús Martín, Aurora Andújar, and Jaume Anguera, “A Five-Element Microstrip Array Antenna for 2.4 GHz ISM band The International Conference on Science and Technology 2017 (December 7-8, 2017), held at Rajamangala University of Technology Thanyaburi, Pathum-thani, Thailand.
  79. Sungtek Kahng, Dajung Han, Changhyeong Lee, Heejun Park, Aurora Andújar, and Jaume Anguera, “AMC-Backed Dipole Array Antenna for Beamforming Less Vulnerable to Nearby Metal Planes”, European Conference on Antennas and Propagation, EUCAP 2018, London, UK, April 2018.
  80. Aurora Andújar and Jaume Anguera, “Integration of a Non-Resonant Antenna in a Smartphone for Multiband Operation”, European Conference on Antennas and Propagation, EUCAP 2018, London, UK, April 2018.
  81. Jaume Anguera, Aurora Andújar, José L. Leiva, Cor Schepens, Roberto Gaddi, Sungtek Kahng, “Multiband Antenna Operation with a Non-Resonant Element Using a Reconfigurable Matching Network”, European Conference on Antennas and Propagation, EUCAP 2018, London, UK, April 2018.
  82. Mohammad Alibakhshikenari, Bal S. Virdee, Chan H. See, Raed Abd-Alhameed, Francisco Falcone, Aurora Andújar, Jaume Anguera, Ernesto Limiti, “Study on Antenna Mutual Coupling Suppression Using Integrated Metasurface Isolator for SAR and MIMO Applications”, European Microwave Week, Madrid, Spain, September 2018.
  83. Mohammad Alibakhshikenari, Alessandro Salvucci, Giorgio Polli, Bal S. Virdee, Chan H. See, Raed Abd-Alhameed, Francisco Falcone, Aurora Andújar, Jaume Anguera, and Ernesto Limiti, “Mutual Coupling Reduction Using Metamaterial Supersubstrate for High Performance & Densely Packed Planar Phased Arrays”, 22nd International Microwave and Radar Conference MIKON, Poznań, Poland, May 15-17 2018.
  84. Aurora Andújar, Yolanda Cobo, Ignasi Anglada, Sungtek Kahng, and Jaume Anguera, “Compact Antenna System for a Smart Watch Using a Non-Resonant Element, European Conference on Antennas and Propagation, EUCAP 2019, Krakow, Poland, April 2019.
  85. Sungtek Kahng, Gwang-Gyun Namgung, Changhyeong Lee, Heejun Park, Aurora Andújar, Jaume Anguera, “Design of A Metamaterial-Inspired Reflectarray to Increase the UHF-Band RFID Detection-Range”, European Conference on Antennas and Propagation, EUCAP 2019, Krakow, Poland, April 2019.
  86. Jeevani Jayasinghe, Víctor Carrillo, Aurora Andújar, Jaume Anguera, “Impact of Superstrate Size on the Radiation of a Microstrip Antenna”, 2019 IEEE International Conference on Industrial and Information Systems (ICIIS) - Communication and Information Technology, Peradeniya, Sri Lanka, Dec. 2019.
  87. Chanhyeong Lee, Heejun Park, Gwanggyun Namgung, Yejune Seo, Aurora Andújar, Jaume Anguera, and Sungtek Kahng, “Selecting a Channel from 5G sub-6GHz Bands by a Small Antenna of Metamaterial Channel Filters”, IWAT 2020, Bucharest, Romania, Feb. 2020
  88. Jaume Anguera, Aurora Andújar, José L. Leiva, Rosa M. Mateos, “Embedded Antennas in Cellular IoT Platforms”, European Conference on Antennas and Propagation, EUCAP 2020, Copenhagen, Denmark, March 2020.
  89. Changhyeong Lee, Munsu Jeon, Yejune Seo, Gwanggyun Namgung, Sungtek Kahng, Aurora Andujar, Jaume Anguera, “A Small Band-Selectable Antenna for 5G Sub-6 GHz Mobile Comm. and Its QAM Functions”, IEEE Antennas and Propagation Society International Symposium, Monteal, Canada, July 2020.
  90. Jaume Anguera, Aurora Andújar, Rosa M. Mateos, Carles Puente, David Vye, Milton Lien, “Antenna Library for IoT Devices with Antenna Boosters”, European Microwave Week, Utrecht, The Netherlands, Sep. 2020.
  91. V. V. S. S. S. Chakravarthy, P. Satish Rama Chowdary, Jaume Anguera, Divya Mokara, Suresh Chandra Satapathy, “Pattern Recovery in Linear Arrays Using Grasshopper Optimization Algorithm”, Microelectronics, Electromagnetics and Telecommunications. Lecture Notes in Electrical Engineering, vol 655. Springer, Singapore, 2020.
  92. Jaume Anguera, Aurora Andújar, David Vye, Milton Wien, “Easy Design of IoT Devices with Antenna Boosters”, Electronic Design Innovation Conference, Edicon 2020, Oct. 13th-14th, Beijing, China.
  93. Arebu Dejen, Jaume Anguera, Murad Ridwan, Jeevani Jayasinghe, “Genetically Engineered Dualband Microstrip Antenna with Improved Directivity for 5G mm-wave Mobile Application”, WIES2020, Peradeniya, Sri-Lanka 15th and 21st November 2020.
  94. Jaume Anguera, Aurora Andújar, José L. Leiva, Rosa M. Mateos, “Antenna Boosters: Easy Design of IoT Devices”, EUCAP 2021, Düsseldorf, Germany, March 2021.
  95. O. Saraereh, J. Jayasinghe, A. Andújar and J. Anguera, "Fractal-Shaped Koch-Ring Microstrip Patch," 2021 International Symposium on Networks, Computers and Communications (ISNCC), 2021, pp. 1-5, doi: 10.1109/ISNCC52172.2021.9615733.
  96. Jayshri S Kulkarni, Chow-Yen-Desmond Sim, Rajendra Talware, Vivek Deshpande, Abhijit Chitre and Jaume Anguera, “Design and Analysis of Dual Band Tapered-Fed Monopole Antenna for 5G and Satellite Applications”, INDICON-2021, 9-21 December 2021, Guwahati, India.
  97. Alejandro Fernández, Jussi Rahola, Jaakko Juntunen, Aurora Andújar, Joan L. Pijoan, Jaume Anguera, “Embedding Antenna Booster in Smart-metering Platforms”, European Conference on Antennas and Propagation, EUCAP 2021, Madrid, Spain, March 2022.
  98. Yejune Seo, Munsu Jeon, Junghyun Cho, Jiyeon Jang, Yejin Lee, Changhyeong Lee, Jaume Anguera, Aurora Andujar, Hyungwook Kwon, Sungtek Kahng, “A CRLH-Resonant Small Antenna for Earphones and Testing the BLT Received-Signal Sensitivity”; European Conference on Antennas and Propagation, EUCAP 2021, Madrid, Spain, March 2022.
  99. Jayshri Kulkarni, Abdullah G. Alharbi, Chow-Yen-Desmond Sim, Jaume Anguera, “Compact, Multiband, Flexible Decagon Ring Monopole Antenna for GSM/LTE/5G/WLAN Applications”, European Conference on Antennas and Propagation, EUCAP 2021, Madrid, Spain, March 2022.
  100. Lieke A. M. Geubbels, G. Federico, V. Vidojkovic, Jaume Anguera, Laurens. A. Bronckers, “Plantenna: Using Plant Leaves to Increase Antenna Performance”, European Conference on Antennas and Propagation, EUCAP 2021, Madrid, Spain, March 2022.
  101. Arebu Dejen, Jaume Anguera, Murad Ridwan, Jeevani Jayasinghe, “Optimization of Quad-band Microstrip mm-Wave Antenna Using Genetic Algorithm”, ICMEET - 2022- 7th International Conference on Micro-Electronics, Electromagnetics and Telecommunications, Andhra Pradesh, India

 

 

*     National Conference Papers

  1. Jaume Anguera, Carles Puente, Carmen Borja, "Diseño de antenas microstrip de banda ancha mediante parches parásitos". Proceedings of the XIII National Symposium of the Scientific International Union of Radio. URSI '98. Pamplona, Spain, 16-18 Sep1998
  2.  Jaume Anguera, Jordi Soler, "Array de antenas microstrip con geometría de anillo y barrido electrónico del haz". Proceedings of the XIII National Symposium of the Scientific International Union of Radio. URSI '98. Pamplona, Spain, 16-18 Sep.1998 
  3. Carmen Borja, Carles Puente, Jaume Anguera, Rafael Pous, Jordi Romeu, "Estudio experimental de la antena de Sierpinski". Proceedings of the XIV National Symposium of the Scientific International Union of Radio. URSI '99. Santiago de Compostela, Spain, Sep. 1999
  4. Jaume Anguera, Carles Puente, Gisela Font, Carmen Borja, Jordi Romeu, “Diseño de antenas impresas de banda ancha alimentadas mediante acoplo capacitivo”. Proceedings of the XV National Symposium of the Scientific International Union of Radio. URSI '00. Zaragoza, Spain, Sep. 2000
  5. Jaume Anguera, Carles Puente, Carmen Borja, Jordi Romeu, Marc Aznar, “Antenas microstrip apiladas con geometría de anillo”. Proceedings of the XV National Symposium of the Scientific International Union of Radio. URSI '00. Zaragoza, Spain, Sep. 2000
  6. Jaume Anguera, Carles Puente, Carmen Borja, Raquel Montero, “Antena Microstrip Miniatura y de Alta Directividad basada en el fractal de Sierpinski” Proceedings of the XVI National Symposium of the Scientific International Union of Radio. URSI '01. Madrid, Spain, Sep. 2001
  7. Jaume Anguera, Gemma Montesinos, Carles Puente, Carmen Borja, Jordi Soler, “Modos multifractón en la antena microstrip bowtie fractal de Sierpinski. Proceedings of the XVII National Symposium of the Scientific International Union of Radio. URSI '02. Alcalá de Henares, Spain, Sep. 2002
  8. Jordi Soler, Carles Puente, Jaume Anguera, “Extensión del modelo multiperiódico para el análisis de las características de radiación de la antena multinivel multibanda basada en el fractal de Sierpinski”. Proceedings of the XVII National Symposium of the Scientific International Union of Radio. URSI '02. Alcalá de Henares, Spain, sep. 2002
  9. Jaume Anguera, Enrique Martínez, Carles Puente, Jordi Soler, “El monopolo de Hilbert: un curva fractal de dos dimensiones”. Proceedings of the XVII National Symposium of the Scientific International Union of Radio. URSI '02. Alcalá de Henares, Spain, sep. 2002
  10. Jaume Anguera, Gisela Font, Carles Puente, Carmen Borja, Jordi Soler, “Comportamiento multifrecuencia en una antena microstrip mediante múltiples elementos parásitos”. Proceedings of the XVIII National Symposium of the Scientific International Union of Radio. URSI '03. A Coruña, Spain, sep. 2003
  11. Jaume Anguera, Gemma Montesinos, Carles Puente, Carmen Borja, Jordi Soler, “Agrupación submuestreada operando en modo fractón utilizando antenas microstrip inspiradas en el fractal de Sierpinski. Proceedings of the XVIII National Symposium of the Scientific International Union of Radio. URSI '03. A Coruña, Spain, sep. 2003
  12. Carlos Subías, Jaume Anguera, Lluís Vicent, “Aproximación a la teoría de antenas mediante un libro electrónico interactivo”. Congreso de Tecnologías Electrónicas Aplicadas a la Enseñanza (TAEE- Technology Applied to Electronic Education), Valencia, Jul. 2004 BEST PRESENTATION IN COMMUNICATIONS
  13. Lluís Vicent, Sandra Forroll, José A. Montero, Jaume Anguera, “Herramienta Web para la enseñanza semipresencial del procesado digital de la imagen”. Congreso de Tecnologías Electrónicas Aplicadas a la Enseñanza (TAEE- Technology Applied to Electronic Education), Valencia, jul. 2004
  14. Carlos Subías, Jaume Anguera, Lluís Vicent, “Aproximación a la teoría de antenas mediante un libro electrónico interactivo”. Proceedings of the XIX National Symposium of the Scientific International Union of Radio. URSI '04. Barcelona, sep. 2004.
  15. Jaume Anguera, Sergio Prieto, Carles Puente, Carmen Borja, Jordi Soler, “Propiedades de barrido de haz en agrupaciones de antenas utilizando elementos inspirados en el fractal de Sierpinski”. Proceedings of the XIX National Symposium of the Scientific International Union of Radio. URSI '04. Barcelona, sep. 2004.
  16. Jaume Anguera, Enrique Martínez, Carles Puente, Carmen Borja, Jordi Soler, “Antena microstrip dual en frecuencia basada en el triángulo fractal de Sierpinski”. Proceedings of the XIX National Symposium of the Scientific International Union of Radio. URSI '04. Barcelona, sep. 2004.
  17. Arnau Cabedo, Daniel Pérez, Lluís Vicent, Jaume Anguera, “Herramienta educativa para el análisis de antenas microstrip: Adaptación de impedancias”. Proceedings of the XX National Symposium of the Scientific International Union of Radio. URSI '05. Valencia, sep. 2005.
  18. Daniel Pérez, Arnau Cabedo, Lluís Vicent, Jaume Anguera, “Herramienta educativa para el análisis de antenas microstrip: Impedancia de entrada y diagramas de radiación”. Proceedings of the XX National Symposium of the Scientific International Union of Radio. URSI '05. Valencia, sep. 2005.
  19. Jaume Anguera, Enrique Martínez, Carles Puente, Carmen Borja, Jordi Soler, “Antena microstrip triplebanda basada en el triángulo fractal de Sierpinski”. Proceedings of the XX National Symposium of the Scientific International Union of Radio. URSI '05. Valencia, sep. 2005.
  20. Albert Miquel, Antonio Pérez, Lluís Vicent, Jaume Anguera, “Herramienta Educativa para el Estudio de un Sistema de Antenas Inteligentes”. Proceedings of the XXI National Symposium of the Scientific International Union of Radio. URSI '06. Oviedo, sep. 2006.
  21. Marc Miret, Jaume Anguera, Antonio Pérez, Joan L.Pijoan, Lluís Vicent, “Herramienta Educativa para el análisis de antenas: uso del Método de los Momentos para el cálculo de parámetros de un Dipolo”, Proceedings of the XXII National Symposium of the Scientific International Union of Radio. URSI '07. Tenerife, Sep. 2007.
  22. Cristina Picher, Jaume Anguera, Arnau Cabedo, Miquel Ribó, Joan L.Pijoan, Carles Puente, “Diseño de antenas multibanda para telefonía móvil mediante la manipulación del plano de masa”, Proceedings of the XXII National Symposium of the Scientific International Union of Radio. URSI '07. Tenerife, sep. 2007.
  23. Sergio Risco, Jaume Anguera, Aurora Andújar, Antonio Pérez, Carles Puente, “Análisis y Diseño de Monopolos Acoplados para Dispositivos Móviles Multibanda”, Proceedings of the XXIII National Symposium of the Scientific International Union of Radio. URSI '08. Madrid, sep. 2008.
  24. Sergio Risco, Jaume Anguera, Aurora Andújar, Cristina Picher, Carles Puente, “Análisis del comportamiento de antenas móviles en presencia del cuerpo humano”, Proceedings of the XXIV National Symposium of the Scientific International Union of Radio. URSI '09. Santander, sep. 2009.
  25. Cristina Picher, Jaume Anguera, Aurora Andújar, Carles Puente, Sergi Risco, Sungtek Kahng, “Diseño de una antena multibanda con ranuras en el plano de masa: una técnica para facilitar la integración de la línea de alimentación”, Proceedings of the XXIV National Symposium of the Scientific International Union of Radio. URSI '09. Santander, sep. 2009
  26. Aurora Andújar, Jaume Anguera, Carles Puente, Cristina Picher, “Conformación del diagrama de radiación de un monopolo en L”, Proceedings of the XXIV National Symposium of the Scientific International Union of Radio. URSI '09. Santander, sep. 2009.
  27. Jaume Anguera, Jean-Pierre Daniel, Carmen Borja, Josep Mumbrú, Carles Puente, Cristina Picher, Tiphaine Leduc, Peter Van Roy, “Antenas fractales microstrip impresas en esponjas metalizables”, Proceedings of the XXIV National Symposium of the Scientific International Union of Radio. URSI '09. Santander, sep. 2009
  28. Yolanda Cobo, Aurora Andújar, Jaume Anguera, “Sistema de Antenas Distribuido para Dispositivos Móviles”, Proceedings of the XXVI National Symposium of the Scientific International Union of Radio. URSI '11. Leganés, sep. 2011.

*    Other Papers

  1. Carles Puente, Jordi Romeu, Mónica Navarro, Carmen Borja, Jaume Anguera, Germán Gómez, Francisco Moyano, “Antenas fractales duales para GSM/DCS”. Mundo Electrónico, no.  298, Mayo 1999.
  2. Jaume Anguera, “Simulación electromagnética mediante el método de las diferencias finitas en el dominio del tiempo “. Revista INPUT no. 23 Enginyeria La Salle, Universitat Ramon Llull, Dec. 2001.
  3. Jaume Anguera, Carles Puente, Joan L.PijoanAntenes miniatura i multibanda per als nous sistemas wireless”, Telecos.cat, Enginyers de Telecomunicació, no. 39, pp.19-22, Sep.2007
  4. Jordi Vergés, Jaume Anguera, Carles Puente, Joan L. Pijoan “Antenes miniatura FM per a terminals mòbils”, Telecos.cat, Enginyers de Telecomunicació, no. 47, pp.18-22, Sep.2009
  5. Cristina Picher, Aurora Andújar, Carmen Borja, Jaume Anguera, Carles Puente, Sungtek Kahng, “Integração de antenas de FM a celulares”, 2012.
  6. Jaume Anguera and Aurora Andújar, “Scientific Papers for Higher Education: Benefits of Paper Reading”, II Symposium in Innovation Technologies for Education, Universitat Ramon Llull, Barcelona, Spain, June 2017
  7. Jaume Anguera, Aurora Andújar, and Joan L. Pijoan “Herramientas de Diseño Industrial dentro del Aula: Aplicación a Tecnología de Antenas”, IV Symposium in Innovation Technologies for Education, Universitat Ramon Llull, Barcelona, Spain, June 2019
  8. Jaume Anguera, “5G Solution for your Next Mobile IoT Device: One Antenna Fits All”, available at Linkedin
  9. Jaume Anguera, Aurora Andújar, and Joan L. Pijoan “Classroom Research: Reflections on the Use of Papers and Design Tools in the Wireless Industry”, I Symposium in Research in the Classroom, Universitat Ramon Llull, Barcelona, Spain, January 2021

 

 

 

 

 

 

 

 

 

 

 

 

  CHAIRMAN

Invited to act as a chairman in the following conferences:

*    Fractal Antennas and Space Filling”, in IEEE Antennas and Propagation Society International Symposium, Columbus, USA June 2003

 

*    Rough Surfaces and Random Media”, in IEEE Antennas and Propagation Society International Symposium, Columbus, USA June 2003

 

*    Dual and Triple-Band Microstrip Antennas”, in IEEE Antennas and Propagation Society International Symposium, Columbus, USA June 2003

 

*    Fractals”, in 27th ESA Antenna Technology Workshop on Innovative Periodic Antennas, Santiago de Compostela, Spain, March 2004

 

*    Education and e-learning”: XIX National Symposium of the Scientific International Union of Radio. URSI '04. Barcelona- Spain, Set. 2004

 

*    Radiation-Propagation: Arrays”: XIX National Symposium of the Scientific International Union of Radio. URSI '04. Barcelona- Spain, Set. 2004

 

*    Antenna Modeling”, 4th European Conference on Antennas and Propagation, Eucap-2010, Barcelona – Spain, April 2010

 

*    Mobile Antennas”, 6th European Conference on Antennas and Propagation (EuCAP’12), Prague, Czech Republic, 2012

 

*    Small and Compact Antennas”, 11th European Conference on Antennas and Propagation (EuCAP’17), Paris, France, 2017

 

*    Communication Systems”, 2018 Second International Conference on Advances in Electronics, Computers and Communications (ICAECC 2018), REVA University, Bangalore, India, 2018

 

*    Honorary Chair at 2018 Second International Conference on Advances in Electronics, Computers and Communications (ICAECC 2018), REVA University, Bangalore, India, 2018

 

7

10

 

*     Antennas in IoT Wireless Devices: Modelling and Industrial Considerations”, Chair and Session Organizer, 14th European Conference on Antennas and Propagation (EuCAP’20), Copenhagen, Denmark, 2020

 

*     IoT Antenna Modelling and Design”, Chair and Session Organizer, 15th European Conference on Antennas and Propagation (EuCAP’21), Düsseldorf, Germany, March 2021

 

*     Modeling, analysis and design methods for antennas in IoT applications”, Chair and Session Organizer, 16th European Conference on Antennas and Propagation (EuCAP’22), Madrid, Spain, March 2022

 

*     Honorary co-chair, International Conference on Innovations in Information and Communication Technologies (ICIICT 2022)

 

 

 

 

         


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 FUNDED PROJECTS and GRANTS

I have been participating in many funded projects by Spanish Ministry, CDTI (Centro Desarrollo Tecnológico e Industrial), CIDEM Catalunya, PIDEA and HORIZON 2020 Europe Commission, EIC Accelerator many of them as a principal researcher.

I have participated in over 21 national/international projects and research grants valued over 13 million €, in which I was the principle researcher for 9 million € of the funding.

 

*     Project PROFIT no.  FIT-070000-2002-517

Tecnología Fracplane para antenas miniatura-multibanda en sistemas móviles 3G-4G (FracPlane Technology for small and multiband antennas in 3G-4G mobile systems)

 

Granting Institution: Ministerio de Ciencia y Tecnología

 

Amount granted: 115.800 €

 

Date: 2002

 

*     Project PROFIT no.  FIT-070000-2003-280

Desarrollo de la tecnología Fracplane para aplicaciones de comunicaciones móviles” (FracPlane technology for mobile communications)

 

Granting Institution: Ministerio de Ciencia y Tecnología

 

Amount granted: 241.360,52 €

 

Date: 2003

 

*     Project PROFIT no.  FIT-330200-2004-130

Antenas Fractales con Tilt eléctrico variable en configuración Slim-Site para estaciones base de telefonía celular de tercera generación: UMTS” (Fractal Antennas with electrical downtilt in Slim-Site configuration for 3G UMTS base stations)

 

Granting Institution: Ministerio de Industria, Turismo y Comercio

 

Amount granted:

 

Date: 2004

 

*      Project PROFIT no.  FIT-330210-2004-0012

Desarrollo solución Tribanda de Bajo impacto visual para redes de telefonía móvil de segunda y tercera generación: SLIMSITE TRIBANDA” (Low visual impact triple band base station for 2G and 3G)

Granting Institution: Ministerio de Industria, Turismo y Comercio

Amount granted:

Date: 2004

 

*      Project PROFIT no.  FIT-330210-2004-0012

Desarrollo solución Tribanda de Bajo impacto visual para redes de telefonía móvil de segunda y tercera generación: SLIMSITE TRIBANDA (2nd year) (Low visual impact triple band base station for 2G and 3G)

Granting Institution: Ministerio de Industria, Turismo y Comercio

Amount granted:

Date: 2005

 

*      Project PROFIT no.  FIT-330210-2005-0007

Investigación de la relación entre las propiedades geométricas de las antenas en teléfonos móviles y su comportamiento radioeléctrico” (On the relationship between the geometric properties of the handset antennas and electromagnetic performance)

Granting Institution: Ministerio de Industria, Turismo y Comercio

Amount granted: 185.000 €

Date: 2005

 

*      Project PROFIT no.  FIT-330210-2005-103

Esponjas metalizables para el diseño de antenas de bajo coste (MEtallized Foams In low coST Antennas)

Granting Institution: Ministerio de Industria, Turismo y Comercio

Amount granted: 

Date: 2003-2006

 

*      Project AVANZA no.  TSI-020100-2007-39

Investigación de antenas miniatura e internas para dispositivos de telefonía móvil operando en la banda FM” (Small and internal antennas for handset pones operating at the FM band)

Granting Institution: Ministerio de Industria, Energía y Turismo

Amount granted: 98.000 €

Date: 2007

Principal researcher: Dr. Jaume Anguera

 

*      Project AVANZA no.  TSI-020100-2008-347

Investigación de antenas miniatura e internas para dispositivos de telefonía móvil operando en la banda FM (2ª anualidad)” (Small and internal antennas for handset pones operating at the FM band)

Granting Institution: Ministerio de Industria, Energía y Turismo

Amount granted: 148.263,75 €

Date: 2008

Principal researcher: Dr. Jaume Anguera

 

*              Project 2008DILL0058

Teoria d’antenes” (ajut per a la Millora de la Qualitat Docent)

Granting Institution: Agència de Gestió d'Ajuts Universitaris i de Recerca (AGAUR). Generalitat de Catalunya

Amount granted: 3.426,23 €

Date: 2008

 

*      Project AVANZA no. TSI-020100-2009-0128

Sistema Distribuido de Antenas: hacia la miniaturización de antenas de dispositivos móviles robustos al cuerpo humano (Distributed Antenna System: towards miniaturization of handset antennas robust to human loading)

Granting Institution: Ministerio de Industria, Energía y Turismo

Amount granted: 261.470,03 €

Date: 2009

Principal researcher: Dr. Jaume Anguera

 

*      Project AVANZA no. TSI-020100-2010-0349

Tecnología Antennaless para la futura generación de teléfonos móviles sin antena” (Antennaless Technology for the future generation of mobile phones)

Granting Institution: Ministerio de Industria, Energía y Turismo

Amount granted: 652.895,86 €

Date: 2010-2012

Principal researcher: Dr. Jaume Anguera

 

*     2009 TEM 0028 (Programa Talent Empresa – Program Industry Talent)

Granting Institution: Agència de Gestió d’Ajuts Universitaris i de Recerca

Amount granted: 47.025,00 €

Date: 2009

Advisor: Dr. Jaume Anguera

 

*     Project FINRD08-2-0002-00

Recerca de noves antenes i sistemes miniaturitzats per a plataformes wireless mòbils de nova generació” (Research of new antennas and miniaturized systems for the next generation of mobile wireless platforms)

Granting Institution: ACC10, Generalitat de Catalunya

Amount Granted: 555.860,30 €

Date: 2010-2011

 

*    Project TSI-020601-2012-27

Tecnologia Antennaless para dispositivos Wireless MIMO” (Antennaless Technology for MIMO wireless devices)

Granting Institution: Ministerio de Industria, Energía y Turismo

Amount granted: 799.006,30 €

Date: 2012-2014

Principal researcher: Dr. Aurora Andújar

 

*    Project TSI-100101-2013-29

Tecnología de Antena Virtual Integrando Planos de Masa Inteligente” (Virtual Antenna Technology Embedding Intelligent Ground Planes)

Granting Institution: Ministerio de Industria, Energía y Turismo

Amount granted: 584.644,45 €

Date: 2013-2015

Principal researcher: Dr. Jaume Anguera

 

*     Project HORIZON 2020 (grant agreement no.  674491)

Virtual AntennaTM Technology: the Next Generation Antenna for Wireless Devices

Granting Institution: HORIZON 2020, European Commission

Amount granted: 757.740 €

Date: 2015-2017

Principal researchers: Dr. Jaume Anguera and Dr. Aurora Andújar

 

*    Project TSI-100103-2015-39

Smart Virtual Antenna Technology

Granting Institution: Ministerio de Industria, Energía y Turismo

Amount granted: 217.878,60€

Date: 2015-2017

Principal researcher: Dr. Jaume Anguera and Dr. Aurora Andújar

 

*    Project IDI-20190285

Virtual Antenna™ Technology para Soluciones Compactas GNSS, Bluetooth y 5G” (Virtual Antenna Technology for GNSS, Bluetooth and 5G Compact Solutions)

Granting Institution: CDTI (Centro para el Desarrollo Tecnológico e Industrial) – Ministerio de Ciencia, Innovación y Universidades

Amount granted: € 299.118,00

Date: 2018-2019

Principal researcher: Dr. Jaume Anguera

 

*    Project HORIZON 2020 (grant agreement no.  674491)

Variant™: Multiband Miniature Antenna for Open Hardware IoT Platforms

Granting Institution: HORIZON 2020, European Commission

Amount granted: 50.000,00€

Date: 2019

Principal researcher: Dr. Jaume Anguera

 

*    Project RTI2018-097066-B-I00

“Red de Sensores NVIS para el Archipiélago de las Islas Shetland del Sur”

Granting Institution: Ministerio de Ciencia, Innovación y Universidades

Amount granted: €

Date: 2019-2021

 

*    Project TIC-20200069

Smart Matching Architectures for IoT Devices embedding Virtual Antenna™” (Arquitecturas de Adaptación Inteligentes para Dispositivos IoT con Virtual Antenna™)

Granting Institution: CDTI (Centro para el Desarrollo Tecnológico e Industrial) – Ministerio de Ciencia, Innovación y Universidades

Amount granted: To update

Date: 2020-2021

Principal researcher: Dr. Jaume Anguera

 

*    Project EIC Accelerator

 

 

 

 

 


 

*    PATENTS

*    Over 150 granted patents – (most of them have been licensed to large companies in the field of wireless communications)

*    Over 29 patent applications

*    49 patent families

Please note that only the patent publications are shown. The granted patents can be downloaded from the main patent searchers.

1.     C. Puente, M. Navarro, C. Borja, and J. Anguera, “Multi-Triangular Antennas for cellular telephony GSM and DCS”, patent app.WO9957784

2.     C. Puente, C. Borja, J. Anguera, and J. Soler, “Multilevel Antennas”, patent app. WO0122528

3.     C. Puente, E. Rozan, and J. Anguera, “Space Filling Miniature Antennas”, patent app. WO 01 54225

4.     J. Anguera, C. Puente, and C. Borja, “Miniature BroadBand Ring-Like Microstrip Patch Antenna”, patent app. WO 02/063714

5.     C. Borja, C. Puente, and J. Anguera, “Dual-Band Dual-Polarized Antenna Array” patent app. WO 02/084790

6.     J. Anguera and C. Puente, “Multifrequency Microstrip Patch Antennas with Parasitic Coupled Elements”, patent app. WO 03/034545

7.     J. Anguera, C. Puente, and C. Borja, “Undersampled Microstrip Array Using Multilevel and Space-Filling Shaped Elements”, patent app. WO 04/010535

8.     C. Puente, J. Soler, C. Borja, and J. Anguera, “Integrated circuit package including miniature antenna”, patent app. WO 2004/042868

9.     J. Anguera, A. Condes, J. Soler, and C. Puente, “Coupled multiband antennas”, patent app. WO 04/025778

10. C. Puente, J. Soler, J. Ortigosa, and J. Anguera, “Miniature Antenna Having a Volumetric Structure”, patent app. WO 04/075342

11. J. Anguera, C. Puente, and C. Borja “Broadside High-Directivity Microstrip Patch Antennas”, patent app.  WO 04/066437

12. J. Anguera, E. Martínez, C. Puente, and E. Rozan, “Antenna System for a Motor Vehicle", Pat.App. WO 2004/095635

13. J. Anguera and C. Puente, “Multi-band Monopole Antennas for Mobile Communications Devices”, patent app. WO 05/076407

14. J. Soler, J. Anguera, C. Puente, J. Mumbrú, and C. Borja, “Radiofrequency System in Package Including Antenna” WO 2005/109330

15. J. Anguera and C. Puente, “Handset with Electromagnetic Bra”, patent app. WO 2005/083833

16. J. Anguera and C. Puente, “Shaped Ground Plane for Radio Apparatus”, patent app.WO 2006/070017

17. C. Puente and J. Anguera, “Slotted Ground-Plane used as a Slot or Used for a PIFA Antenna”, patent app.WO 2006/097496

18. J. Anguera, J.I. Ortigosa, and A.Sanz, “Antenna with inner spring contact”, patent app.WO 2007/014737.

19. J. Mumbrú, J. Anguera, J. Soler, and C. Puente, “Handheld Device with Two Antennas and Method of Enhancing the Isolation between the antennas”, patent app.WO 2007/028448

20. C. Puente, C. Borja, A. Teillet, D. Kirchhoffer, and J. Anguera, “Slim Triple band Antenna Array for Cellular Base Stations”, patent app.WO 2007/042938

21. J.Anguera and A. Condes, “Portable Wireless Device with Fractal Enhanced Strip Plane”, patent app.WO 2007/039071

22. J. Anguera and A. Sanz “Wireless Portable Device Including Internal Broadcast Receiver”, patent app.WO 2007/128340

23. J. Anguera and C. Puente, “Distributed Antenna System Robust to Human Loading Effects”, patent app.WO 2007/141187

24. J. Anguera, I. Sanz, C. Puente, J. Mumbrú, “Wireless device including a Multiband Antenna”, patent app. WO 2008/119699

25. J. Anguera, A. Andújar, C. Puente, and J. Mumbrú, “AntennaLess Wireless Device”, patent app. WO 2010/015365

26. J. Anguera, A. Andújar, C. Puente, and J. Mumbrú, “AntennaLess Wireless Device Capable of Operation in Multiple Frequency Regions”, patent app. WO 2010/015364

27. J. Anguera, C. Borja, C. Picher, and A. Andújar, “Wireless Device Providing Operability for Broadcasting Standards and Method Enabling such Operability”, patent app. WO/2010/145825

28. J. Anguera and A. Andújar, “AntennaLess Wireless Device Comprising One or More Bodies”, patent app. WO 2011/095330

29. A. Andújar, J. Anguera, C. Puente, and C. Picher, Wireless Device Capable of Multiband MIMO Operation”, patent app. WO 2012/017013

30. A. Andújar and J. Anguera, “Compact Radiating Array for Wireless Handheld or Portable Devices”,patent. app. US 61/661,885

31. J. Anguera, C. Picher, A. Andújar, and C. Puente, “Concentrated Antennaless Wireless Device Providing Operability in Multiple Frequency Regions, patent. app. US 61/671,906

32. A. Andújar and J. Anguera, “Scattered Virtual Antenna Technology for Wireless Devices”, patent app. US61/837265

33. J. Anguera, A. Andújar, and C. Puente, “Wireless handheld devices, radiation systems and manufacturing methods”, patent app. US13/946922

34. J. Anguera, N. Toporcer, and A. Andújar, “Slim bar booster for electronics devices”, patent app. EP14178369

35. A. Andújar and J. Anguera, “Wireless device using an array of ground plane boosters for multiband operation”, patent app. US62/139809

36. J. Anguera and A. Andújar, “Coupled Antenna System for Multiband Operation”, patent app. US62/159,998

37. J. Anguera and A. Andújar, “Wireless Device”, patent app. US 2017/0202058

38. A. Andújar, Y. Cobo, and J. Anguera, “Wireless Device Including Optimized Antenna System on Metal Frame”, patent app. US2017/0214776

39. J. Anguera and A. Andújar, “Multi Structure Antenna for Multiband Operation”, patent app.US2017/0214137

40. J. Anguera, A. Andújar, and A. Teotino, “Miniature Sharkfin Wireless Device with Shaped Ground Plane”, patent app. US 2017/0222302

41. A. Andújar, J. Anguera, and C. Puente, “Wireless Device Including a Metal Frame Antenna System Based on Multiple Arms”, patent app. US2017/0237151

42. J. Anguera and A. Andújar, “Ground plane booster antenna technology for wearable devices”, patent app. US15/449,551

43. A. Andújar and J. Anguera, “Wireless Device and Antenna System with Extended Bandwidth”

44. J. Anguera, A. Andújar, C. Puente, and R. Mateos, “Modular multi-stage antenna system and component for wireless communications”, patent App. US62/529,032

45. J. Anguera and A. Andújar, “Virtual Antenna Solution in Close Proximity to Conductive Bodies”, patent app. US 62578538

46. J. Anguera and A. Andújar, C. Puente, “Compact Antenna Technology for Wireless Communications”, patent app.