Ad hoc On-Demand Distance Vector (AODV) Routing for IP version 6
12 Nov 2001-
TL;DR: In this article, a logging instrument contains a pulsed neutron source and a pair of radiation detectors spaced along the length of the instrument to provide an indication of formation porosity which is substantially independent of the formation salinity.
Abstract: A logging instrument contains a pulsed neutron source and a pair of radiation detectors spaced along the length of the instrument. The radiation detectors are gated differently from each other to provide an indication of formation porosity which is substantially independent of the formation salinity. In the preferred embodiment, the electrical signals indicative of radiation detected by the long-spaced detector are gated for almost the entire interval between neutron pulses and the short-spaced signals are gated for a significantly smaller time interval which commences soon after the termination of a given neutron burst. The signals from the two detectors are combined in a ratio circuit for determination of porosity.
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01 Jul 2003
TL;DR: A logging instrument contains a pulsed neutron source and a pair of radiation detectors spaced along the length of the instrument to provide an indication of formation porosity which is substantially independent of the formation salinity.
Abstract: The Ad hoc On-Demand Distance Vector (AODV) routing protocol is intended for use by mobile nodes in an ad hoc network. It offers quick adaptation to dynamic link conditions, low processing and memory overhead, low network utilization, and determines unicast routes to destinations within the ad hoc network. It uses destination sequence numbers to ensure loop freedom at all times (even in the face of anomalous delivery of routing control messages), avoiding problems (such as "counting to infinity") associated with classical distance vector protocols.
11,490Â citations
Patent•
13 Nov 2000
TL;DR: In this article, the authors present a system for monitoring a variety of environmental and/or other conditions within a defined remotely located region by using a plurality of wireless transmitters (614), each integrated into a sensor (612) adapted to monitor a particular data input.
Abstract: The present invention is generally directed to a system for monitoring a variety of environmental and/or other conditions within a defined remotely located region. In one aspect, a system is configured to monitor utility meters (613) in a defined area. The system is implemented by using a plurality of wireless transmitters (614), each integrated into a sensor (612) adapted to monitor a particular data input. The system also includes a plurality of transceivers (221) that are dispersed throughout the region at defined locations. The system uses a local gateway (210) to translate and transfer information from the transmitters to a dedicated computer (260) on a network (230). The dedicated computer collects, compiles and stores the data for retrieval upon client demand across the network. The computer further includes means for evaluating the received information and identifying an appropriate control signal to be applied at a designated actuator.
1,542Â citations
01 Sep 2002
TL;DR: This paper introduces the Cougar approach to tasking sensor networks through declarative queries, and proposes a natural architecture for a data management system for sensor networks, and describes open research problems in this area.
Abstract: The widespread distribution and availability of small-scale sensors, actuators, and embedded processors is transforming the physical world into a computing platform. One such example is a sensor network consisting of a large number of sensor nodes that combine physical sensing capabilities such as temperature, light, or seismic sensors with networking and computation capabilities. Applications range from environmental control, warehouse inventory, and health care to military environments. Existing sensor networks assume that the sensors are preprogrammed and send data to a central frontend where the data is aggregated and stored for offline querying and analysis. This approach has two major drawbacks. First, the user cannot change the behavior of the system on the fly. Second, conservation of battery power is a major design factor, but a central system cannot make use of in-network programming, which trades costly communication for cheap local computation.In this paper, we introduce the Cougar approach to tasking sensor networks through declarative queries. Given a user query, a query optimizer generates an efficient query plan for in-network query processing, which can vastly reduce resource usage and thus extend the lifetime of a sensor network. In addition, since queries are asked in a declarative language, the user is shielded from the physical characteristics of the network. We give a short overview of sensor networks, propose a natural architecture for a data management system for sensor networks, and describe open research problems in this area.
1,468Â citations
Patent•
15 Dec 2005
TL;DR: In this article, a wireless network is considered, which includes a wireless router client operable to broadcast data packets to at least one wireless server and one additional wireless client, each client and server includes programs for determining optimum routes between them, and each client also includes a program for determining if a received data packet is not addressed to it and if the packet has been sent via a new optimal route unknown to the client, and for notifying the respective server of such an optimal route.
Abstract: A wireless network, which includes a wireless router client operable to broadcast data packets to at least one wireless server and one additional wireless client. Each client and server includes programs for determining optimum routes between them. The client also includes a program for determining if a received data packet is not addressed to it and if the packet has been sent via a new optimal route unknown to the client, and for notifying the respective server of such a new optimal route.
442Â citations
Patent•
08 Mar 2016
TL;DR: In this article, an emergency message system (EMS) is defined as a system and method for generating and transmitting emergency messages, which employs a transceiver network with a plurality transceivers coupled to monitoring devices residing at a plurality of customer premises.
Abstract: An emergency message system provides a system and method for generating and transmitting emergency messages. In one embodiment, the emergency message system employs a transceiver network with a plurality transceivers coupled to monitoring devices residing at a plurality of customer premises. Control room operators receive an emergency message from an identifiable transceiver. The transceiver, identified by an identification code, indicates a location and the nature of the emergency condition so that the control operators may request appropriate emergency assistance.
249Â citations