Ge-Ming Chiu scite author profile

Ge-Ming Chiu

5Publications

63Citation Statements Received

63Citation Statements Given

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Affiliations

National Taiwan University of Science and Technology, National Taipei University of Technology, University of Southern California

Publications

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Network Mobility Protocol for Vehicular Ad Hoc Networks

Chen

Cheng

Hsu

et al. 2009

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The goal of the network mobility (NEMO) management is to effectively reduce the complexity of handoff procedure and keep the mobile devices connected to the Internet. Vehicle is moving so fast that it may cause the handoff and packet loss problems. Both of the problems will lower down the throughput of the network. To overcome these problems, we propose a novel NEMO protocol for vehicular ad hoc network (VANET). In freeway, since every car is moving in a fixed direction with high moving speed, the car adopting our protocol can acquire IP address from the VANET through vehicle to vehicle communications. The vehicle can rely on the assistance of the front vehicle to execute the pre-handoff procedure or it may acquire its new IP address through multi-hop relays from the car on the lanes of the same or opposite direction and thus reduces the handoff delay and maintain the connectivity to the Internet. Simulation results have shown that the proposed scheme is able to reduce both handoff delay and packet loss rate.

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HVE-mobicast: a hierarchical-variant-egg-based mobicast routing protocol for wireless sensornets

et al. 2009

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In this paper, we propose a new mobicast routing protocol, called the HVE-mobicast (hierarchical-variantegg-based mobicast) routing protocol, in wireless sensor networks (WSNs). Existing protocols for a spatiotemporal variant of the multicast protocol called a "mobicast" were designed to support a forwarding zone that moves at a constant velocity, − → v , through sensornets. The spatiotemporal characteristic of a mobicast is to forward a mobicast message to all sensor nodes that are present at time t in some geographic zone (called the forwarding zone) Z, where both the location and shape of the forwarding zone are a function of time over some interval (t start , t end ). Mobicast routing protocol aims to provide reliable and just-in-time message delivery for a mobile sink node. To consider the mobile entity with the different moving speed, a new mobicast routing protocol is investigated in this work by utilizing the cluster-based approach. The message delivery of nodes in the forwarding zone of the HVE-mobicast routing protocol is transmitted by two phases; cluster-to-cluster and clusterto-node phases. In the cluster-to-cluster phase, the clusterhead and relay nodes are distributively notified to wake them up. In the cluster-to-node phase, all member nodes are then notified to wake up by cluster-head nodes according to the estimated arrival time of the delivery zone. The key contribution of the HVE-mobicast routing protocol is that it is more power efficient than existing mobicast routing protocols, especially by considering different moving speeds and directions. Finally, simulation results illustrate performance enhancements in message overhead, power consumption, needlessly woken-up nodes, and successful woken-up ratio, compared to existing mobicast routing protocols.

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Flexible Routing Criteria for Circuit-Switched Hypercubes

Chiu¹,

Chalasani²,

Raghavendra³

1994

Journal of Parallel and Distributed Computing

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Designing a fair scheduling mechanism for IEEE 802.11 wireless LAns

et al. 2005

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Abstract-A fair scheduling mechanism called distributed elastic round robin (DERR) is proposed in this letter for IEEE 802.11 wireless LANs operated in a distributed manner. To quantify the fairness, we not only derive its fairness bound, but also observe the fairness through ratios of throughput and weight using a simulation approach. By numerical comparisons among DERR, distributed deficit round robin (DDRR), and IEEE 802.11e, we demonstrate that DERR outperforms the other two mechanisms in performance and fairness.

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A fault-tolerant routing strategy in hypercube multicomputers

Chiu

1996

IEEE Trans. Comput.

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Ge-Ming Chiu

Network Mobility Protocol for Vehicular Ad Hoc Networks

HVE-mobicast: a hierarchical-variant-egg-based mobicast routing protocol for wireless sensornets

Flexible Routing Criteria for Circuit-Switched Hypercubes

Designing a fair scheduling mechanism for IEEE 802.11 wireless LAns

A fault-tolerant routing strategy in hypercube multicomputers

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