Sezaki & Nishiyama Laboratory
Institute of Industrial Science / Center for Spatial Information Science in The University of Tokyo
Institute of Industrial Science / Center for Spatial Information Science in The University of Tokyo
Yuichi Nakamura, Masaki Ito, Kaoru Sezaki
Mobility Control of Mobile Sensing for Time-Varying Parameter Inproceedings
In: Proceedings of the 20th International Workshop on Mobile Computing Systems and Applications, pp. 159, Association for Computing Machinery, Santa Cruz, CA, USA, 2019, ISBN: 9781450362733.
BibTeX | Tags: active sensing, kriging, Mobile sensing, sensor networks | Links:
@inproceedings{10.1145/3301293.3309553,
title = {Mobility Control of Mobile Sensing for Time-Varying Parameter},
author = {Yuichi Nakamura and Masaki Ito and Kaoru Sezaki},
url = {https://doi.org/10.1145/3301293.3309553},
doi = {10.1145/3301293.3309553},
isbn = {9781450362733},
year = {2019},
date = {2019-01-01},
booktitle = {Proceedings of the 20th International Workshop on Mobile Computing Systems and Applications},
pages = {159},
publisher = {Association for Computing Machinery},
address = {Santa Cruz, CA, USA},
series = {HotMobile ’19},
keywords = {active sensing, kriging, Mobile sensing, sensor networks},
pubstate = {published},
tppubtype = {inproceedings}
}
Hill Hiroki Kobayashi, Keijiro Nakagawa, Ko Makiyama, Yuta Sasaki, Hiromi Kudo, Baburam Niraula, Kaoru Sezaki
Animal-to-Animal Data Sharing Mechanism for Wildlife Monitoring in Fukushima Exclusion Zone Journal Article Open Access
In: Multimodal Technologies and Interaction, 2 (3), pp. 40, 2018, ISSN: 2414-4088.
Abstract | BibTeX | Tags: nature conservation, sensor networks, wearable interfaces | Links:
@article{kobayashi2018animal,
title = {Animal-to-Animal Data Sharing Mechanism for Wildlife Monitoring in Fukushima Exclusion Zone},
author = {Hill Hiroki Kobayashi and Keijiro Nakagawa and Ko Makiyama and Yuta Sasaki and Hiromi Kudo and Baburam Niraula and Kaoru Sezaki},
url = {https://www.mdpi.com/2414-4088/2/3/40},
doi = {10.3390/mti2030040},
issn = {2414-4088},
year = {2018},
date = {2018-01-01},
journal = {Multimodal Technologies and Interaction},
volume = {2},
number = {3},
pages = {40},
publisher = {Multidisciplinary Digital Publishing Institute},
abstract = {We propose an animal-to-animal data sharing mechanism that employs wildlife-borne sensing devices to expand the size of monitoring areas in which electricity, information, and road infrastructures are either limited or nonexistent. With the proposed approach, monitoring information can be collected from remote areas in a safe and cost-effective manner. To substantially prolong the life of a sensor node, the proposed mechanism activates the communication capabilities only when there is a plurality of animals; otherwise, the sensor node remains in a sleep state. This study aimed to achieve three objectives. First, we intend to obtain knowledge based on the actual field operations within the Fukushima exclusion zone. Second, we attempt to realize an objective evaluation of the power supply and work base that is required to properly evaluate the proposed mechanism. Third, we intend to acquire data to support wildlife research, which is the objective of both our present (and future) research.},
keywords = {nature conservation, sensor networks, wearable interfaces},
pubstate = {published},
tppubtype = {article}
}
Masaki Imai, Masayuki Iwai, Ryousuke Shibasaki, Kaoru Sezaki
A Design of Slope Failure Detection System Using Wireless Sensor Networks Journal Article
In: 31st Asian Conference on Remote Sensing 2010, ACRS 2010, 1 , pp. 780–787, 2010, ISBN: 9781617823978 .
Abstract | BibTeX | Tags: sensor networks | Links:
@article{ACR2010,
title = {A Design of Slope Failure Detection System Using Wireless Sensor Networks},
author = {Masaki Imai and Masayuki Iwai and Ryousuke Shibasaki and Kaoru Sezaki},
url = {https://jglobal.jst.go.jp/detail?JGLOBAL_ID=201902205285422590},
isbn = {9781617823978 },
year = {2010},
date = {2010-11-01},
journal = {31st Asian Conference on Remote Sensing 2010, ACRS 2010},
volume = {1},
pages = {780--787},
abstract = {Lately, as the torrential rains and typhoons happen frequently many casualties by slope failure or landslide have been produced around mountainous area. Moreover, it is expected that the local torrential rain would increase continuously because of the climate change to the near-tropical area by the global warming. Under this circumstance, the method to diminish the slope failure disaster is more needed. Prediction of slope failure is one of the ways in that. The other one is monitoring geospatial information after disaster outbreak. The former alleviate human suffering caused by early escape. The important factor is ground deformation and groundwater level. That became an active area of research since early times. The latter is effective on secondary disastrous prevention and earlier reconstruction. We want to know regarding geological condition and surface using aerial survey and laser range sensor. Both are difficult to install and expensive. Moreover, it requires much time in collection of information. Because, a person collect scale markings in mountain area by foot. To solve above issues, using the wireless sensor network is proposed. We have focused a picket which can be inserted into ground easily. We have developed a slope failure disaster detection system embed wireless network by picket. The picket with sensors is called iPicket. The iPicket has multi sensor device such as acceleration, illumination intensity, RSSI and more. In addition, ad-hoc wireless network formation system is implemented. In this paper, the experiment using large-scale rainfall simulator for detect acceleration in slope failure phenomenon is reported. Moreover it will show some idea in iPicket. },
keywords = {sensor networks},
pubstate = {published},
tppubtype = {article}
}