Showing papers on "Smart grid published in 2000"
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10 Jul 2000TL;DR: In this paper, a grid-linked power supply is described, where an inverter, at least one distributed energy source to meet normal, non-peak power demand, and a connection to a public utility grid to meet peak power demand requirements are connected by bus lines.
Abstract: A grid-linked power supply is described. An inverter, at least one distributed energy source to meet normal, non-peak power demand, a connection to a public utility grid to meet peak power demand requirements, and a converter for regulating delivery of power from the distributed energy source or the public utility grid are connected by bus lines. A topology for the grid-linked power supply has an inverter and a DC/DC converter that is connected to the distributed energy source. The inverter and converter are connected by bus lines, and a bias voltage is provided to select drawing power from the distributed energy source or the public utility grid.
85 citations
01 Jan 2000
TL;DR: This document specifies an autoconfiguration scheme for device discovery and service discovery in IP-based vehicular networks that supports the global (or local) DNS naming of Internet-of-Things (IoT) devices, such as sensors, actuators, and in-vehicle units.
Abstract: This document specifies an autoconfiguration scheme for device
discovery and service discovery in IP-based vehicular networks.
Through the device discovery, this document supports the global (or
local) DNS naming of Internet-of-Things (IoT) devices, such as
sensors, actuators, and in-vehicle units. By this scheme, the DNS name
of an IoT device can be autoconfigured with the device's model
information in wired and wireless target networks (e.g., vehicle, road
network, home, office, shopping mall, and smart grid). Through the
service discovery, IoT users (e.g., drivers, passengers, home
residents, and customers) in the Internet (or local network) can
easily identify each device for monitoring and remote-controlling it
in a target network.
4 citations
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16 Jul 2000
TL;DR: The author describes how the entity operating the regional grid has four major responsibilities with respect to the power grid, system security, delivery of power as promised, cost recovery, and fair (equitable) access.
Abstract: The author describes how, whether called the pool operator, the system controller, independent system operator (ISO) or regional transmission operator (RTO), the open access grid operation, the entity operating the regional grid has four major responsibilities with respect to the power grid, system security, delivery of power as promised, cost recovery, and fair (equitable) access.
1 citations