Members of the Antenna and High Frequency Research Centre met with An Taoiseach Enda Kenny at Decawave’s launch of their Scensor Chip on the 7th November. The miniature integrated circuit exploits ultra wideband pulses to track assets with an accuracy of up to 7 cm. To help get their product to market, the AHFR team developed an antenna solution from the PhD research undertaken by Dr Matthias John and Dr Antoine Dumoulin.
DIT has a licence agreement with Decawave Limited on antenna design. The company have announced plans to double the workforce as they prepare to address market demand. Speaking at the event, Professor Max Ammann said, “It is exciting to see research backed by Science Foundation Ireland and Enterprise Ireland at the CTVR Telecommunications Research Centre in DIT become part of an Irish product and contribute to job creation. We wish Decawave’s CEO Ciaran Connell, CTO Michael McLaughlin and their team every success with the debut chip.”
Photographed with An Taoiseach Enda Kenny T.D. are Dr Patrick McEvoy DIT, Dr Matthias John from the Telecommunications Research Centre TCD and Professor Max Ammann DIT.
AHFR hosted a week long course on 'Antennas for Emerging Technologies' as part of the Telecommunications Graduate Initiative on September 2nd to 6th 2013. We were delighted to have three top experts in their fields teaching the various modules, Prof. William Scanlon (Queens University Belfast), Dr Steven Best (President of IEEE Antennas & Propagation Society) and Dr Winfried Simon (IMST). The course was attended by TGI and SFI students, post-docs (DIT & TCD) as well as participants from industry.
Adam Narbudowicz, Dr. Xiulong Bao and Professor Max Ammann of the Antenna & High Frequency Research Centre took the postgraduate/staff prize in the DIT Inventor Competition 2012 for their Omni-Directional CP Antenna project. The award was presented by Minister for Research and Innovation Sean Sherlock.
The antenna can be used in WLAN routers and access points and means multiple antennas can be reduced to one. Its circular polarisation means devices can receive or transmit strong signals at any angle. This will improve connection quality and reduce distortion or streaming delays that occur when watching video on a poorly performing radio link. The antenna is also ideal for large spaces such as airport halls as its improved performance will reduce the number of access points needed to eliminate deadspots.
AHFR are hosting a week long course on Antenna Design & Technology as part of the Telecommunications Graduate Initiative. Places are still available for students or interested parties from industry.
Antenna Design & Technology (course code NIMT 1001) 5 ECTS credits.
Dublin Institute of Technology, Kevin St, Room 403
Monday 18th June to Friday 22nd June
Course Tutor Dr Steven Best
This module is an introduction to modern Antennas – Design and Technology. The aim of this module is to provide a broad understanding of antenna theory, design and practice with respect to real world wireless communications systems and devices and to understand the building blocks and design process for fundamental antenna elements. On completion of this module, the learner will be able to:
Update 15 June 2012: This course is fully booked!
Mr. David Kearney, Dr. Matthias John and Dr. Max Ammann received the CST University Publication Award 2011. The winning paper titled "Miniature Ceramic Dual-PIFA Antenna to Support Band Group 1 UWB Functionality in Mobile Handset" was one of five journal papers chosen by the committee for this years award.
The CST University Publication Award is an annual grant to university institutes and researchers for their work in the application of 3D EM field simulation. The winners are awarded with extensions to their CST STUDIO SUITE [cst.com] installations.
Prerequisites for participation are that the papers are authored or co-authored by university researchers, published either in scientific journals or conference proceedings, and the numerical results are entirely or in part obtained through simulation using CST software products.
For further information please see CST Press Release [cst.com].
Two funded PhD studentships are available at the Dublin Institute of Technology's Antenna & High Frequency Research Centre as part of the Telecommunications Graduate Initiative (TGI).
Student fees are covered by the scholarship for EU students only.
The proposed research themes build upon the team's expertise in the following areas.
The principle tasks will include the electro-magnetic modelling of antenna structures and environment (on-body/solar cell), prototype manufacture and measurements to validate designs. The facilities are all located in the DIT but collaboration with a European University is envisaged. Interested candidates should hold a first or upper second class honours degree in Electronic Engineering or related discipline. Applicants who hold research masters in the area are welcome. Experience with antenna simulation tools would be advantageous.
Applicants should email a detailed CV to Dr Max Ammann at email@example.com.
Dr. Max Ammann, Dr. Matthias John, Antoine Dumoulin and Dr. Patrick McEvoy have been presented with the 2010 Hothouse Commercialisation Award for licensing an Ultra-wideband antenna design to DecaWave Ltd.
The award was presented by DIT president Prof. Brian Norton at a Hothouse Showcase Event in Croke Park on 2nd February 2011.
Check out DecaWaves RTLS and ranging demo video featuring AHFR UWB antennas below.
The Dublin Institute of Technology has been awarded €424,731 to research body area communications technology in collaboration with the Royal College of Surgeons, Ireland.
Dr. Max Ammann, Director of the Antenna & High Frequency Research Centre (AHFR) in the DIT School of Electronic and Communications Engineering, will use the Principal Investigator Grant on advanced computer modelling to implement improved wireless telemetry devices for physiotherapy and sporting applications. The multidisciplinary team includes Dr Frances Horgan and Ms Louise Keating of the School of Physiotherapy at the Royal College of Surgeons, Ireland and will employ a senior researcher, a PhD student and an MSc student.
It is hoped that the cooperation will allow the researchers to explore the effects of the body on radio links and to develop new monitoring technology for real-time physiotherapy analysis. The principle tasks will include the electromagnetic modelling of designs and application trials for performance benchmarking in laboratory and clinical settings.
Professor Gerald Farrell, Head of the School of Electronic and Communications Engineering, congratulated Dr. Ammann and said he was absolutely delighted for him and for his research team. “This is a fitting tribute to the outstanding quality of Dr. Ammann’s research and to his hard work in building a fine team of researchers over many years. This multi-disciplinary collaboration is an exciting basis for ideas exchange between our institutions.”
The Antenna & High Frequency Research Centre (AHFR) specialises in the analysis, design and measurement of RF and microwave devices for wireless communications and medical applications. With more than 12 years of applied research experience and it has built an international reputation for innovative futuristic concepts and solutions to contemporary industrial challenges.
|Science Foundation Ireland||National Development Plan|
The award was presented by Jim Lawlor Director, Industrial Technologies Commercialisation, Enterprise Ireland and was accepted on behalf of Dr. Max Ammann by Tom Flanagan, Head of Commercialisation, DIT.
Enterprise Ireland recognised the top ten industrial technologies with awards this week. DIT picked up four of these awards for licensing technologies to companies.
Dr. Max Ammann, Dr. Matthias John and Dr. Giuseppe Ruvio have been presented with the Hothouse Commercialisation Award for licensing agreements with Taoglas Ltd. The award was presented by Minister of State for Science Conor Lenihan and Professor Ellen Hazelkorn, DIT Director of Research & Enterprise at a DIT Hothouse Showcase Event in Croke Park on November 3rd 2009.
“With the FXP100 and FXP400, our new ultra wideband antenna series, and the external LTEA.4000 antenna, we are looking to meet future requirements of the LTE and WiMax market by using very efficient antennas based on current M2M market requirements,” said Dermot O’Shea, Director, Taoglas. “For M2M manufacturers designing devices for LTE and WiMax networks, they now have highly efficient antennas to use in their test and proof-of-concept designs.”
Dr Ammann, who leads the research at DIT’s Antenna & High Frequency Research Centre, commented, “Taoglas are an exciting company work with. They have a track record of delivering high performance solutions at affordable price. This allows us to channel our research ideas towards applied solutions required in the market place.”