Sadao Obana scite author profile

Sadao Obana

5Publications

125Citation Statements Received

57Citation Statements Given

How they've been cited

186

125

How they cite others

Affiliations

Tokyo University of Science, University of Electro-Communications, Advanced Telecommunications Research Institute International

Publications

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Emergency Evacuation using Wireless Sensor Networks

Itaya

Hasegawa

Kondo

et al. 2007

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This paper presents a distributed algorithm to direct evacuees to exits through arbitrarily complex building layouts in emergency situations. The algorithm finds the safest paths for evacuees taking into account predictions of the relative movements of hazards, such as fires, and evacuees. The algorithm is demonstrated on a 64 node wireless sensor network test platform and in simulation. The results of simulations are shown to demonstrate the navigation paths found by the algorithm.

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Wake-up receiver for radio-on-demand wireless LANs

Tang

Yomo

Kondo

et al. 2012

J Wireless Com Network

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Recent investigations show that access points (APs) of wireless local area networks (WLANs) are idle during much of the time and that an AP in its idle state still consumes a large percentage of power. Wake-up receivers can be used to realize radio-on-demand WLANs, activating APs from the sleep mode only in times of active data communications. A wake-up receiver, sharing the antenna (and the same ISM band) with its co-located WLAN module and exploiting RF energy detection, can be implemented at low cost and run with low power consumption. In this article, we evaluate the effect of an imperfect RF band pass filter (BPF), and suggest a new soft decision method to (i) resist adjacent channel interference leaked by BPF, and, (ii) distinguish wake-up signals from WLAN signals. Extensive simulation and testbed experimental results confirm that the proposed scheme, at a moderate cost, has good performance in delivering wake-up signals and controlling false wake-up events caused by WLAN signals.

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Tree-Based Routing Protocol for Cognitive Wireless Access Networks

Zhang¹,

Takizawa²,

Hasagawa³

et al. 2007

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Achieving stable operation of ad hoc wireless networks with neighbor pre-selection and synchronous route updates

Itaya

Hasegawa

et al. 2005

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We propose two methods for improving the stability of communication in ad hoc wireless networks -firstly, the selection of reliable neighbors for data relay based on monitoring signal strength variations and secondly, the synchronous update of routing tables. These methods were designed to overcome problems observed in recent large testbed experiments. We show the dramatic improvement in stability and reduction of packet error rate which was achieved when we introduced these methods to an implementation of the OLSR routing protocol. Specifically we evaluated performance in a 50-node ad hoc wireless network, and showed a reduction in the packet error rate from 12% to less than 1

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Wake-up radio using IEEE 802.11 frame length modulation for Radio-On-Demand wireless LAN

Kondo¹,

Yomo

Tang³

et al. 2011

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In this paper, we introduce Radio-On-Demand (ROD) wireless LAN (WLAN) in which access points (APs) are put into a sleep mode during idle periods and woken up by stations (STAs) upon communications demands. The on-demand wake-up is realized by a wake-up receiver which is equipped with each AP and is used to detect a wake-up signal transmitted by STA. In this paper, in order to reduce the hardware installation cost at STA, we advocate to utilize wireless LAN frames transmitted by each STA as a wake-up signal to awake the target AP. The STA generates a wake-up signal by devising WLAN signal: each STA creates a series of WLAN frames with different length to which the information on wake-up ID is embedded. The wake-up receiver extracts the wake-up ID from the received frames with a simple detector which ensures its low-power operation. We evaluate false negative (STA fails to wake up the target AP) and false positive (AP falsely wakes up without an intended wake-up signal) probabilities of our proposed on-demand wake-up scheme with computer simulations. The numerical results show that the proposed scheme achieves the false negative probability of about 10 −2 when the detection error ratio of '1' is less than 10 −3 . We also show that the false positive probability can be largely reduced by employing long WLAN frames to generate each wake-up signal. These results confirm that the proposed wake-up scheme is a promising approach to reducing wasteful energy consumed by idle APs in WLAN.

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Sadao Obana

Emergency Evacuation using Wireless Sensor Networks

Wake-up receiver for radio-on-demand wireless LANs

Tree-Based Routing Protocol for Cognitive Wireless Access Networks

Achieving stable operation of ad hoc wireless networks with neighbor pre-selection and synchronous route updates

Wake-up radio using IEEE 802.11 frame length modulation for Radio-On-Demand wireless LAN

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