Program at a Glance Room Room Room Time Room A Room B Room C Room D Room E F G H Monday, January 25 1B2: Workshop 2: 1A2: Workshop 1: 1D2: Workshop 4: Passive human 1E2: Workshop 5: Post processing 1C2: Workshop 3: The Design of 10:40- detection, Circularly Polarized techniques in 5G, Advancements in 5G Millimeter-Wave localization, and Antennas: Design Automotive & Space Antennas and Emerging 6G Wideband Multi- 12:40 posture and Measurement antenna Antenna Technologies Polarization identification, using techniques measurements Antenna Array radio technologies 14:00- 1A3: Opening 15:00 15:20- 1A4: Plenary Talk 16:40 Part 1 17:00- 1A5: Plenary Talk 18:40 Part 2 Tuesday, January 26 2F1: OS: 2G1: Mobile 2C1: OS: Antennas and Student 09:00- 2A1: Planar/Printed 2B1: Millimeter- Propagation Metasurfaces/Metamaterials 2D1: Passive and 2E1: RFID and Its Propagation Design Antennas and Arrays Wave, Terahertz and and for Radiation and Scattering Active Components Applications Technologies 10:40 1 Optical Antennas 1 Measurement Contest Control 1 for Satellite Techniques Applications 2F2: Radar DOA, 2G2: 2C2: OS: Recent 2D2: Student 11:00- 2A2: Planar/Printed 2B2: Millimeter- localization, Propagation Antennas and Propagation Computational 2E2: EMC/EMI Antennas and Arrays Wave, Terahertz and Sensing and for V2X and Design Technology in ASEAN Electromagnetics Technologies 13:00 2 Optical Antennas 2 Propagation Channel Contest Countries and applications Measurement Sounding Techniques 1 2F3: Radar 2C3: OS: DOA, 14:20- 2A3: Small 2B3: OS: Antenna 2D3: Short 2E3: Short localization, 2G3: Short Student Metasurfaces/Metamaterials Antennas and RF Arrays for Radar Presentation Presentation Session Sensing and Presentation Design for Radiation and Scattering 16:20 Sensors 1 Applications Session A1 D1 Propagation Session B1 Contest Control 2 Measurement Techniques 2 2D4: OS: EurAAP 2E4: Antenna 2F4: Session: Recent 16:40- 2A4: OS: Advanced Systems for Mobile Terrestrial, 2G4: 2B4: Antenna 2C4: Designing FSS, EBG, Advances in Millimeter-Wave Communications and Earth-Space Propagation Measurement 1 and Other EM Device European Antennas 18:40 Array Antennas MIMO Signal and Ionospheric Simulation and Propagation Processing Propagation Research Wednesday, January 27 3D1: OS: 3G1: Advanced Radar 3E1: OS: Orbital 09:00- 3A1: Small Remote Student 3B1: Antenna 3C1: Wireless Power Technology Related Angular Momentum 3F1: Student Antennas and RF Sensing and Design Measurement 2 Transfer Technologies to Radar Signal and (OAM) Multiplexing Paper Award 1 Contest 10:40 Sensors 2 Propagation Image Processing Transmission Measurement Including Antennas 3D2: OS: IAET 11:00- 3A2: Millimeter- Special Session: 3E2: OS: Leading 3G2: OS: Student 3B2: Antenna Antenna 3F2: Student wave, Terahertz and 3C2: Metamaterials Technologies over Thinned and Design Measurement 3 Technologies for 5G Paper Award 2 Contest 13:00 Optical Antennas 3 Diversity Sparse Arrays Mobile Communications 14:20- 3A3-1: OS: Recent Advances in Time 15:20 Domain Method OS: 3B3: OS: Massive 3A3-2: 3D3: Short 3E3: Short 3F3: Short 3G3: Short Advanced MIMO and its Related 3C3: Short Presentation Presentation Presentation Session Presentation Presentation Technology of Over- Techniques for 5G Session A2 15:20- Session A3 D2 Session D3 Session B2 The-Air Testing for Beyond/ 6G Systems 16:20 5G, IoT and Vehicular Communication Systems 3E4: OS: Recent 3D4: OS: 3C4: OS: Novel Antennas Developments for 3G4: OS: 16:40- 3A4: Broadband Emerging Next-Generation 3B4: Planar/Print and Propagation Modelling 3F4: Student MW Wave and and Multiband Technologies for the Terrestrial and Antenna Arrays for the 5G Millimeter Wave Paper Award 3 Tera Hertz 18:40 Antennas 1 New 5G Antenna Space Bands Propagation Systems Communication Systems Thursday, January 28 4E1: OS: 4F1: Radar Millimeter-Wave and DOA, 4G1: OS: 4B1: OS: 4D1: OS: Recent Terahertz-Wave 09:00- localization, Studies on 4A1: Antenna Biomedical 4C1: Broadband and Advances in Systems for Sensing and Radio Wave Theory and Design 1 Applications of Multiband Antennas 2 Computational Infrastructures and 10:40 Propagation Propagation in Electromagnetic Field Electromagnetics Their Measurement ITU-R SG3 Standardization Techniques 3 Activities 4F2: Radar DOA, 4G2: 4B2: Antennas for 4D2: OS: WPT 11:00- 4A2: Antenna 4C2: OS: Circularly localization, Millimeter- Mobile and V2X Technologies for Sensing and wave and Theory and Design 2 Polarized Antennas 13:00 Applications Mobile Devices Propagation Satellite Measurement Propagation Techniques 4 4F3: Radar DOA, 4B3: Short 4D3: Short 4E3: Short 4G3: Short 14:20- 4A3: Antenna 4C3: Short Presentation localization, Presentation Session Presentation Presentation Session Sensing and Presentation Theory and Design 3 Session A5 16:20 A4 Session C D4 Propagation Session B3 Measurement Techniques 5 16:40- 4A4: Closing and 17:40 Award Ceremony Technical Program Monday, January 25 Monday, January 25 10:40 - 12:40 (Asia/Tokyo) 1A2: Workshop 1: Post processing techniques in 5G, Automotive & Space antenna measurements Speakers: Dr. Lars Jacob Foged (Microwave Vision Group), Prof. Dr. Manuel Sierra-Castañer (Technical University of Madrid) Abstract This cour se is a fast pace introduction to modern applications of post-processing techniques to exploit the antenna measurement results. Nowadays, the use of information from antenna under test, antenna measurement system and electromagnetic measurements results allow the improvement of those results for: Extraction of electromagnetic sources in the antenna surface. Detection of errors in antenna design. Improving measurement results cancelling echoes, leakage, noise... Extrapolating the radiation pattern to unmeasured angles. Combination of measurements and simulations to emulate the effect of the environment. Following a brief introduction to near and far field antenna measurements theory, the course will focus on these techniques. The second part of the course will be the explanation of the following techniques: Time gating techniques. Extraction of Equivalent sources through inverse electromagnetic problems. Use of holographic techniques for extracting equivalent currents on a surface. Filtering of measurement results using spherical or cylindrical near field modes expansion. The third session will deal with different applications of those techniques. In this section, applications for BTS antennas, automotive measurement, RADAR systems, satellite antennas will be shown. The course outline is: Theory and application of far-field and near field antenna measurements Equivalent currents using integral equation and holographic techniques. Time domain and time gating techniques. Spherical and Cylindrical modes expansion and filtering of spurious signals. Application in telecom, satellite, automotive and defense measurement scenarios. 1B2: Workshop 2: Passive human detection, localization, and posture identification, using radio technologies Speakers: Assistant Prof. Dr. Yang Miao (Twente University, the Netherlands), Prof. Dr. Minseok Kim (Niigata University, Japan), Prof. Dr. Jörg Schäfer (Frankfurt University of Applied Sciences, Germany), Prof. Dr. Stefano Savazzi (Consiglio Nazionale delle Ricerche (CNR), Italy) Abstract This work shop is to address one of the most challenging issues in wireless radio based assisted living, i.e., to dynamically detect, localize and track, and identify the postures of multiple humans in indoor environment. As Japanese, Europeans, etc., are growing older and healthier, these societies face tremendous challenges in securing the future wellness of a larger segment of its population requiring special attentions, e.g., the elderly and the physically impaired. This is expected to have a great impact on the future advancement of these societies. The emerging wireless technologies are enablers that can be applied to solve many of the wellness challenges, e.g., through the clever combination of wireless radio and smart buildings. Moreover, radio systems are less sensitive to visibility conditions to operate appropriately. Therefore, they naturally mitigate possible privacy concerns that may arise as compared to the camera- or the visible light-based systems where people are "observed" directly through image data or under visible conditions. The wireless radio-based assisted living can be achieved through the passive detection, the localization and the posture identification of humans. Here "passive" indicates that the assisted individual needs not to wear or carry any additional devices, i.e. "device-free". The existing passive systems employ the time of arrival, the angle of arrival, the received signal strength (RSS), the complex channel state information of radio waves to perform localization. For example, fingerprinting, a localization technique based on RSS measurements, consists of an offline phase to build a database from surveyed signals at known positions. The process is labour intensive and is not robust against changes in physical environment. Alternatively, in multiple-input multiple-output (MIMO) systems, antenna arrays with many elements provide sufficient spatial resolution to discern signals coming from different directions, while wideband provide delay resolution to separate multiple copies of these signals in time. The temporal-spatial-delay domain profiles contain information on human form-factors as well as on surrounding objects. However, it is challenging to sort out human-relevant information. 1C2: Workshop 3: Advancements in 5G Antennas
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