Proceedings Article10.1109/NEMS.2016.7758243
A multiple sensor platform with dedicated CMOS-LSIs for robot applications
Chenzhong Shao,Takahiro Nakayama,Yoshiyuki Hata,Travis Bartley,Yutaka Nonomura,Shuji Tanaka,Masanori Muroyama +6 more
- 01 Apr 2016
- pp 245-250
3
TL;DR: The first implementation results of the multiple kind sensors with the CMOS-LSIs are described, which has the temperature sensor, capacitive and resistive type force sensors.
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Abstract: In recent years, there has been an increasing interest in robots' tactile sense, which enables safer, more reliable and accurate human-robot communication for the future society. So far, we have developed a capacitive type tactile sensor network system for implementing a large number of sensors with MEMS-CMOS integration technologies [1–3, 9]. Considering practical use for the robot, multiple kind sensors in addition to numerous sensor distributions are necessary in terms of accurate object recognition and wide coverage of sensor requirements such as high-sensitivity, large dynamic range, high-reliability and low-cost. Thus, we proposed a sensor platform with dedicated CMOS-LSIs [6], which can utilize three types of sensors: on-chip temperature, off-chip capacitive and resistive tactile sensors. The CMOS-LSI is well designed for integration with MEMS. This paper describes the first implementation results of the multiple kind sensors with the CMOS-LSIs. We successfully constructed the multi sensor system, which has the temperature sensor, capacitive and resistive type force sensors.
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Citations
CMOS-on-LTCC integrated fingertip sensor with 3-axis tactile and thermal sensation for robots
Sho Asano,Masanori Muroyama,Takahiro Nakayama,Yoshiyuki Hata,Shuji Tanaka +4 more
- 01 Jun 2017
TL;DR: In this paper, a 3-axis capacitive force sensor is integrated with the original sensor platform CMOS-LSI (sensor platform LSI) including a diode-based temperature sensor.
16
Multi-sensor platform LSI enabling different sensors to be event-driven and connected to common differental bus line
Masanori Muroyama,Takahiro Nakayama,Yoshiyuki Hata,Shuji Tanaka +3 more
- 01 Jun 2017
TL;DR: A multi-sensor platform LSI for versatile applications including next generation robots that has unique structures for MEMS-CMOS chip scale integration is presented and proved the sensor platform functions with experiments.
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References
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CMOS Circuit Design, Layout, and Simulation
R. Jacob Baker
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TL;DR: Regardless of one's integrated circuit (IC) design skill level, this book allows readers to experience both the theory behind, and the hands-on implementation of, complementary metal oxide semiconductor (CMOS) IC design via detailed derivations, discussions, and hundreds of design, layout, and simulation examples.
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Tactile Sensing—From Humans to Humanoids
TL;DR: Tactile sensing, focused to fingertips and hands until past decade or so, has now been extended to whole body, even though many issues remain open, and various system issues that keep tactile sensing away from widespread utility are discussed.
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Delay window blind oversampling clock and data recovery algorithm with wide tracking range
Travis Bartley,Shuji Tanaka,Yutaka Nonomura,Takahiro Nakayama,Masanori Muroyama +4 more
- 24 May 2015
TL;DR: The algorithm is capable of recovering data over a wide tracking range or when the precise oversampling rate is not known a priori, for any real-valued oversampled rate, β ≥ 3, making this BO-CDR algorithm the first to not require integer-valued β.
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A 1.7mm 3 MEMS-on-CMOS tactile sensor using human-inspired autonomous common bus communication
Mitsutoshi Makihata,Masanori Muroyama,Y. Nakano,Shuji Tanaka,Takahiro Nakayama,Ui Yamaguchi,Hitoshi Yamada,Yutaka Nonomura,Hirofumi Funabashi,Yoshiyuki Hata,Masayoshi Esashi +10 more
- 16 Jun 2013
TL;DR: A bus-connected tactile sensor system composed of MEMS-CMOS integrated force sensors was developed and data reduction processing based on threshold operation and adaptation inspired by tactile receptors was carried out to overcome packet collision problem.
An SOI tactile sensor with a quad seesaw electrode for 3-axis complete differential detection
Yoshiyuki Hata,Yutaka Nonomura,Hirofumi Funabashi,Teruhisa Akashi,Motohiro Fujiyoshi,Yoshiteru Omura,Takahiro Nakayama,Ui Yamaguchi,Hitoshi Yamada,Shuji Tanaka,Hideyuki Fukushi,Masanori Muroyama,Mitsutoshi Makihata,Masayoshi Esashi +13 more
- 01 Jan 2014
TL;DR: In this paper, the authors presented a novel SOI capacitive tactile sensor with a quad-seesaw electrode for 3-axis complete differential detection, which enables integration with a CMOS.
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