Lu-Chuan Kung

TL;DR: A localization algorithm for building a zero- configuration and robust indoor localization and tracking system to support location-based network services and management and is quite robust and gives accurate localization results (i.e., with the localization error within 3 meters).

TL;DR: A modeling, simulation, and emulation framework for WSNs in J-Sim - an open source, component-based compositional network simulation environment developed entirely in Java that provides an object-oriented definition of target, sensor, and sink nodes, sensor and wireless communication channels, and physical media such as seismic channels, mobility models, and power models.

TL;DR: The theoretical base is established and a localization algorithm for building a zero-configuration and robust indoor localization and tracking system to support location-based network services and management and the empirical results show the proposed system is quite robust and gives accurate localization results.

TL;DR: The authors presented a modeling and simulation framework for WSNs in J-Sim - an open-source, component-based compositional network simulation environment that is developed entirely in Java that provides an object-oriented definition of target, sensor and sink nodes and physical media.

TL;DR: This paper incorporates the effect of PHY/MAC attributes that need not be considered in WLANs but become extraordinarily important in multi-hop wireless networks, and derives the throughput attained by each sender from the perspective of an individual sender.