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start [2017/03/10 11:18]
hsinmu [Research Interests]
start [2017/06/27 19:56] (current)
hsinmu [CELLI won best demo runner-up in ACM MobiSys 2017]
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 This is **Hsin-Mu (Michael) Tsai'​s** homepage. I am an associate professor in the [[http://​www.csie.ntu.edu.tw|Department of Computer Science and Information Engineering]] and [[http://​www.inm.ntu.edu.tw|Graduate Institute of Networking and Multimedia]] at [[http://​www.ntu.edu.tw/​|National Taiwan University]]. I lead the **Mobile and Vehicular Network Laboratory** in my department. I am also the Principal-Investigator of the project "​Next-Generation Camera Communications"​ in the [[http://​iox.ntu.edu.tw|NTU IoX Center]]. This is **Hsin-Mu (Michael) Tsai'​s** homepage. I am an associate professor in the [[http://​www.csie.ntu.edu.tw|Department of Computer Science and Information Engineering]] and [[http://​www.inm.ntu.edu.tw|Graduate Institute of Networking and Multimedia]] at [[http://​www.ntu.edu.tw/​|National Taiwan University]]. I lead the **Mobile and Vehicular Network Laboratory** in my department. I am also the Principal-Investigator of the project "​Next-Generation Camera Communications"​ in the [[http://​iox.ntu.edu.tw|NTU IoX Center]].
 ====== News ====== ====== News ======
 +===== CELLI won best demo runner-up in ACM MobiSys 2017 =====
 +Our demo of "CELLI - Indoor Positioning using Polarized Sweeping Light Beams" won [[https://​www.sigmobile.org/​mobisys/​2017/​demos.php|best demo runner-up]] at ACM MobiSys 2017! 
  
 ===== CELLI, POLI paper accepted by MobiSys 2017 ===== ===== CELLI, POLI paper accepted by MobiSys 2017 =====
-Our recent works "​CELLI:​ Indoor Positioning using Polarized Sweeping Light Beam" and "POLI: Long-Range Visible Light Communications Using Polarized Light Intensity Modulation"​ are both accepted as full papers in ACM MobiSys 2017! ACM MobiSys is a highly selective international top conference in the computer networking and systems area. This year the acceptance rate is 34/188 = 18%. +Our recent works "​CELLI:​ Indoor Positioning using Polarized Sweeping Light Beam" and "POLI: Long-Range Visible Light Communications Using Polarized Light Intensity Modulation"​ are both accepted as full papers in ACM MobiSys 2017! ACM MobiSys is a highly selective international top conference in the computer networking and systems area. This year the acceptance rate is 34/188 = 18%. [[https://​www.sigmobile.org/​mobisys/​2017/​accepted.php|MobiSys'​17]]
  
 ===== LiCompass paper accepted by INFOCOM 2017 ===== ===== LiCompass paper accepted by INFOCOM 2017 =====
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 ====== Recruiting ====== ====== Recruiting ======
-I am currently looking for brilliant students (all levels: undergraduate,​ master, and phd students) who would like to work on interesting research problems and to have hands-on experience on useful experimental research tools such as wireless channel measurement equipments, ​software defined radios, ​wireless sensor nodes (similar to embedded systems), ​and software network simulators, to join my lab.** The main research direction of the lab is to understand ​the general principles of the communication patterns ​and underlying channelsto engineer towards a feasible communication infrastructure ​for the future ubiquitous ​mobile and vehicular networks, ​and to discover new applications for these networksThere are lots of interesting problems which we can work on. The potential students are encouraged to schedule a meeting with me via e-mail. I can explain these topics in details when we meet.**+I am currently looking for brilliant students (all levels: undergraduate,​ master, and phd students) who would like to work on interesting research problems and to have hands-on experience on useful experimental research tools such as software defined radios, embedded systems ​for quick prototyping (Arduino, Raspberry Pi, etc.), LIDAR, cameras, etc., to join my lab. The main research direction of the lab is to solve real-world problems (often in the vehicle ​and transportation domainsbut also for mobile and indoor applications) with communication ​and networking system designsWe deepen our understanding ​of the problem through quick prototyping and carry out measurements in the real-worldThen the design idea is again realized and validated with system prototyping. 
 + 
 +Ongoing research projects (March 2017) include: 
 +  * Traffic shockwave mitigation with vehicle-to-vehicle visible light communications (sponsored by Ford North America) 
 +  * Next-generation camera communications (sponsored by Intel Labs and Delta Electronics) 
 +  * Centimeter-level indoor visible light positioning (sponsored by Intel Labs and Delta Electronics) 
 +  * Parking management in urban areas with software defined RFID 
 + 
 +The potential students are encouraged to schedule a meeting with me via e-mail. I can explain these topics in details when we meet.
 ====== Research Interests ====== ====== Research Interests ======
   * Visible light communications and positioning   * Visible light communications and positioning
 
start.1489115908.txt.gz · Last modified: 2017/03/10 11:18 by hsinmu · [Old revisions]
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