Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
CQ, IMQ, MVE, IE (Joint) [detail] |
2022-03-11 11:20 |
Online |
Online (Zoom) |
[Invited Talk]
The future of taste media Homei Miyashita (Meiji Univ.) IMQ2021-49 CQ2021-130 IE2021-111 MVE2021-78 |
I would like to describe the mechanism and present status of "taste media" that records and plays back tastes, just like... [more] |
IMQ2021-49 CQ2021-130 IE2021-111 MVE2021-78 p.205(IMQ), p.166(CQ), p.205(IE), p.205(MVE) |
MBE, NC (Joint) |
2020-12-18 13:25 |
Online |
Online |
Development of AR synthesizer system by parameter operation to limb movements. Yamato Iida, Hiroki Imamura (Soka Univ.) MBE2020-20 |
A general synthesizer requires specialized knowledge and skill, and it is a difficult instrument for an amateur.In recen... [more] |
MBE2020-20 pp.5-7 |
EE |
2020-01-15 14:05 |
Kagoshima |
HOUZAN HALL |
Examination of application of Direct Digital Synthesizer for digitally controlled power supply Mami Tomohiro, Seiya Abe, Satoshi Matsumoto (Kyutech) EE2019-56 |
One of the effective approaches to miniaturize the power supply is increasing the switching frequency. Recently, Power S... [more] |
EE2019-56 pp.43-47 |
MW, ICD |
2019-03-15 11:00 |
Okinawa |
|
An Energy-Saving Digital-to-Time Converter for Ultra-Low-Power Digital PLLs Hongye Huang, Hanli Liu, Zheng Sun, Teruki Someya, Atsushi Shirane, Kenichi Okada (Tokyo Tech) MW2018-172 ICD2018-116 |
A digital-to-time converter (DTC) could be a critical part in a digital phase-locked loop (PLL). Comparing to other DTC ... [more] |
MW2018-172 ICD2018-116 pp.87-91 |
WIT |
2016-03-04 15:50 |
Ibaraki |
Tusukuba Univ. of Tech.(Tsukuba) |
Ball Detection Function for the Blind Bowling Support System using a Depth Sensor Makoto Kobayashi (NTUT) WIT2015-95 |
A blind bowling support system is being developed with purpose to realize an alternative solution to supporting by a sig... [more] |
WIT2015-95 pp.37-40 |
ICD, SDM |
2014-08-05 15:45 |
Hokkaido |
Hokkaido Univ., Multimedia Education Bldg. |
A Low Power , Area Efficient Frequency Calibration Technique with Shared Array Oscillator for Inductive-Coupling Transceiver Naoki Kitazawa, Teruo Jyo, Hiroki Ishikuro (Keio Univ.) SDM2014-81 ICD2014-50 |
This paper presents a low power, small area Frequency Acquisition Circuit (FAC) for a pulse-based inductive coupling tra... [more] |
SDM2014-81 ICD2014-50 pp.105-108 |
MW |
2012-11-22 14:30 |
Okinawa |
|
Spur Suppression Technique of a Digital Frequency Synthesizer Using two PH-DAC with in-phase clock Yusuke Kitsukawa, Kenichi Tajima, Kenji Kawakami (Mitsubishielectric Co.) MW2012-126 |
This paper present a novel spur suppression technique for a direct digital synthesizer (DDS) using a phase holding digit... [more] |
MW2012-126 pp.75-79 |
RECONF |
2012-09-18 11:10 |
Shiga |
Epock Ritsumei 21, Ritsumeikan Univ. |
An approach for generating new timbres by the use of an FPGA Suguru Ochiai, Yoshiki Yamaguchi, Yuetsu Kodama (Univ. of Tsukuba) RECONF2012-27 |
Sound synthesis applications have being introduced to mobile computing
in these years and they attract many users from ... [more] |
RECONF2012-27 pp.19-24 |
ICD, ITE-IST |
2012-07-27 11:15 |
Yamagata |
Yamagata University |
Loop Design Optimization for Fourth-Order Fractional-N PLL Frequency Synthesizers Shoichi Masui (Fujitsu Labs), Lee Jun-Gyu (Tohoku Univ.) ICD2012-27 |
We propose a methodology of loop design optimization for fourth-order fractional-N PLL frequency synthesizers featuring ... [more] |
ICD2012-27 pp.59-64 |
MW |
2011-12-15 16:00 |
Yamaguchi |
Yamaguchi University |
Memory Size Reduction Technique for Residual Error correction of a Direct Digital Synthesizer Using Piecewise-Linear Approximation Kenichi Tajima, Kenji Kawakami (Mitsubishi Electric corp.) MW2011-130 |
This paper presents a novel memory size reduction technique for residual error-correction of a direct digital synthesize... [more] |
MW2011-130 pp.27-31 |
ICD |
2010-12-16 15:10 |
Tokyo |
RCAST, Univ. of Tokyo |
[Poster Presentation]
CMOS-Based Nonvolatile Flip-Flop Design and its Application to a Fractional-N PLL Frequency Synthesizer Ge Wang, Jungyu Lee, Shoichi Masui (Tohoku Univ.) ICD2010-100 |
A CMOS-based nonvolatile flip-flop (NV-FF) is proposed and implemented with a 180nm technology without any additional ma... [more] |
ICD2010-100 pp.31-36 |
MW |
2010-11-26 11:00 |
Okinawa |
Tiruru |
Amplitude Adjustment Spur Suppression Technique of a Digital Frequency Synthesizer Using a PH-DAC Kenichi Tajima, Ryoji Hayashi, Morishige Hieda (Mitsubishi Electric corp.) MW2010-117 |
This paper presents a novel spur suppression technique for a direct digital synthesizer (DDS) with a phase holding digit... [more] |
MW2010-117 pp.71-74 |
ICD, ITE-IST |
2010-07-22 15:50 |
Osaka |
Josho Gakuen Osaka Center |
[Invited Talk]
A 2.1-to-2.8-GHz Low-Phase-Noise All-Digital Frequency Synthesizer with a Time-Windowed Time-to-Digital Converter Tadashi Maeda, Takashi Tokairin (Renesas Electronics Corporation), Masaki Kitsunezuka (NEC Corp.), Mitsuji Okada (Renesas Electronics Corporation), Muneo Fukaishi (NEC Corp.) ICD2010-29 |
A 2.1-to-2.8-GHz low-power consumption all-digital phase locked loop (ADPLL) with a time-windowed time-to-digital conver... [more] |
ICD2010-29 pp.49-54 |
ICD, ITE-IST |
2010-07-23 16:35 |
Osaka |
Josho Gakuen Osaka Center |
Self-Dithered Digital Delta Sigma Modulators for Fractional-N Frequency Synthesizers Zule Xu, Jun Gyu Lee, Shoichi Masui (Tohoku Univ.) ICD2010-36 |
Digital delta-sigma modulators applied in fractional-N frequency synthesizers suffer from spurious tones which undermine... [more] |
ICD2010-36 pp.121-126 |
ET |
2009-10-09 11:35 |
Hokkaido |
Hakodate National College of Technology |
Development of a Music Learning Support Software "SynthesaIKA" Kyosiro Murata, Yuki Mizusima, Tomoya Tokairin (Hakodate Nat Coll. of Tech.) ET2009-34 |
In this paper, we propose a music learning support software "SynthesaIKA" for beginners, espetially for elementary and j... [more] |
ET2009-34 pp.13-16 |
MVE |
2009-10-09 11:00 |
Hokkaido |
Eco Center 2000 |
A Study on the Representation of Sound by Text Naofumi Aoki (Hokkaido Univ.) MVE2009-49 |
Research on how human represents sound by text may be an important clue for understanding how human percepts sound. This... [more] |
MVE2009-49 pp.89-92 |
EA |
2009-06-25 16:30 |
Hokkaido |
|
Design of Phoneme MIDI Codes Using the MIDI Encoding Tool "Auto-F" and Realizing Voice Synthesizing Functions Based on Musical Sounds Toshio Modegi (Dai Nippon Printing Co., Ltd.) EA2009-24 |
Using our previously developed audio to MIDI code converter tool “Auto-F”, from given vocal acoustic signals we can crea... [more] |
EA2009-24 pp.37-42 |
LQE, OPE |
2009-06-19 11:45 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
Reconfigurable shape pulse compression using optical pulse synthesizer Ken Kashiwagi, Yuichiro Kodama, Yosuke Tanaka, Takashi Kurokawa (Tokyo Univ. of Agr and Tech.) OPE2009-22 LQE2009-25 |
We have been working on arbitral waveform generation using an optical pulse synthesizer, which consists of an arrayed wa... [more] |
OPE2009-22 LQE2009-25 pp.37-40 |
SDM, ED |
2008-07-11 14:20 |
Hokkaido |
Kaderu2・7 |
A 425 MHz Narrow Channel Spacing Frequency Synthesizer Younwoong Chung, Junan Lee, Jinwook Burm (Sogang Univ) ED2008-93 SDM2008-112 |
A 425MHz fractional-N frequency synthesizer as shown in Figure1 is implemented by on a 0.18・ CMOS technology with fully ... [more] |
ED2008-93 SDM2008-112 pp.285-290 |
SR |
2008-01-25 13:50 |
Nagano |
Tateyama Prince hotel (Ohmachi city, Nagano prefecture) |
A New Multiband Frequency Down-Conversion Method by Up-conversion to Common Frequency Band for Cognitive Radio Naohiro Fukaya (Meiji Univ.), Hiroshi Harada, Ryuhei Funada (NICT), Tetsushi Ikegami (Meiji Univ.) SR2007-79 |
Cognitive radio wireless systems require an RF unit that enables adaptive bandpass filtering for recognizing and selecti... [more] |
SR2007-79 pp.81-87 |