The Experts below are selected from a list of 9828 Experts worldwide ranked by ideXlab platform
Imron Pramana - One of the best experts on this subject based on the ideXlab platform.
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design of Vehicle Position tracking system using short message services and its implementation on fpga
Asia and South Pacific Design Automation Conference, 2005Co-Authors: Arias Tanti Hapsari, Eniman Y Syamsudin, Imron PramanaAbstract:This paper describes the design of a system that can give information of Vehicle Position every time there's a request for it. The information of Vehicle Position is gained from GPS and it is transmitted using short message services. The system is designed using VHDL on Altera MAX+plus II software, and it is implemented on Altera UP1X demoboard based on FPGA chip, which is Altera FLEX 10K EPF10K70RC240-4.
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ASP-DAC - Design of Vehicle Position tracking system using short message services and its implementation on FPGA
Proceedings of the 2005 conference on Asia South Pacific design automation - ASP-DAC '05, 2005Co-Authors: Arias Tanti Hapsari, Eniman Y Syamsudin, Imron PramanaAbstract:This paper describes the design of a system that can give information of Vehicle Position every time there's a request for it. The information of Vehicle Position is gained from GPS and it is transmitted using short message services. The system is designed using VHDL on Altera MAX+plus II software, and it is implemented on Altera UP1X demoboard based on FPGA chip, which is Altera FLEX 10K EPF10K70RC240-4.
Arias Tanti Hapsari - One of the best experts on this subject based on the ideXlab platform.
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design of Vehicle Position tracking system using short message services and its implementation on fpga
Asia and South Pacific Design Automation Conference, 2005Co-Authors: Arias Tanti Hapsari, Eniman Y Syamsudin, Imron PramanaAbstract:This paper describes the design of a system that can give information of Vehicle Position every time there's a request for it. The information of Vehicle Position is gained from GPS and it is transmitted using short message services. The system is designed using VHDL on Altera MAX+plus II software, and it is implemented on Altera UP1X demoboard based on FPGA chip, which is Altera FLEX 10K EPF10K70RC240-4.
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ASP-DAC - Design of Vehicle Position tracking system using short message services and its implementation on FPGA
Proceedings of the 2005 conference on Asia South Pacific design automation - ASP-DAC '05, 2005Co-Authors: Arias Tanti Hapsari, Eniman Y Syamsudin, Imron PramanaAbstract:This paper describes the design of a system that can give information of Vehicle Position every time there's a request for it. The information of Vehicle Position is gained from GPS and it is transmitted using short message services. The system is designed using VHDL on Altera MAX+plus II software, and it is implemented on Altera UP1X demoboard based on FPGA chip, which is Altera FLEX 10K EPF10K70RC240-4.
Eniman Y Syamsudin - One of the best experts on this subject based on the ideXlab platform.
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design of Vehicle Position tracking system using short message services and its implementation on fpga
Asia and South Pacific Design Automation Conference, 2005Co-Authors: Arias Tanti Hapsari, Eniman Y Syamsudin, Imron PramanaAbstract:This paper describes the design of a system that can give information of Vehicle Position every time there's a request for it. The information of Vehicle Position is gained from GPS and it is transmitted using short message services. The system is designed using VHDL on Altera MAX+plus II software, and it is implemented on Altera UP1X demoboard based on FPGA chip, which is Altera FLEX 10K EPF10K70RC240-4.
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ASP-DAC - Design of Vehicle Position tracking system using short message services and its implementation on FPGA
Proceedings of the 2005 conference on Asia South Pacific design automation - ASP-DAC '05, 2005Co-Authors: Arias Tanti Hapsari, Eniman Y Syamsudin, Imron PramanaAbstract:This paper describes the design of a system that can give information of Vehicle Position every time there's a request for it. The information of Vehicle Position is gained from GPS and it is transmitted using short message services. The system is designed using VHDL on Altera MAX+plus II software, and it is implemented on Altera UP1X demoboard based on FPGA chip, which is Altera FLEX 10K EPF10K70RC240-4.
Hongchul Lee - One of the best experts on this subject based on the ideXlab platform.
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self recognition of Vehicle Position using uhf passive rfid tags
IEEE Transactions on Industrial Electronics, 2013Co-Authors: Sangdo Park, Hongchul LeeAbstract:This paper proposes a method that enables self-recognition of a mobile Vehicle's current Position by utilizing ultrahigh frequency (UHF) passive radio-frequency identification (RFID) tags. The proposed method can be used in real industry environments such as complex storage warehouses where many different goods are dispersed throughout a wide area. In particular, the proposed method makes use of two UHF RFID readers with identical emission configuration attached to a Vehicle to identify a reference RFID tag. By utilizing the received signal strength indicator obtained by the readers from the reference RFID tag, the precise Position of the moving Vehicle can be obtained. The experiments prove the effectiveness of the proposed method in accurately estimating the Vehicle Position.
Mounita Saha - One of the best experts on this subject based on the ideXlab platform.
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autonomous Vehicle Position determination system for determining a Position of a remote Vehicle relative to a mobile carrier Vehicle on the basis of security alert messages
2013Co-Authors: Sushanta Das, Mounita SahaAbstract:Autonomous Vehicle Position determination system for determining a Position of a remote Vehicle relative to a mobile carrier Vehicle on the basis of security alarm messages that are broadcast from the remote Vehicle with respect to an event in a route, the system comprising: a carrier Vehicle communication unit that communicates with the remote Vehicle to receive the broadcast messages from the remote Vehicle; a carrier Vehicle control unit to identify the reference points along the route, wherein each reference point identifies a Position of the host Vehicle and a signal receiving property, when the host Vehicle receives the broadcast message; and wherein the control unit of the carrier Vehicle selects a set of the reference points with the identified Positions and associated signal reception characteristics, wherein the control unit, the signal receiving characteristics of each reference point, associated with a received broadcast message is used, and wherein said control unit to a Position of the remote Vehicle as a function of the signal reception characteristics each selected reference point determined in the set and the control unit further determines whether the remote Vehicle having at each selected reference point in the set the same Position, wherein the control unit detects a malfunction by the remote Vehicle when the remote Vehicle is not on any selected reference point in the set having the same Position.
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autonomes fahrzeug Positionsbestimmungssystem zum bestimmen einer Position eines entfernten fahrzeugs relativ zu einem mobilen tragerfahrzeug auf der basis von sicherheitsalarmnachrichten autonomous Vehicle Position determining system for determining
2013Co-Authors: Sushanta Das, Mounita SahaAbstract:Autonomes Fahrzeug-Positionsbestimmungssystem zum Bestimmen einer Position eines entfernten Fahrzeugs relativ zu einem mobilen Tragerfahrzeug auf der Basis von Sicherheitsalarmnachrichten, die vom entfernten Fahrzeug in Bezug auf ein Ereignis in einer Fahrstrase rundgesendet werden, wobei das System umfasst: Autonomous Vehicle-Position-determining system for determining a Position of a remote Vehicle relative to a mobile carrier Vehicle on the basis of security alarm messages that are broadcast from the Vehicle away with respect to an event in a route, the system comprising: eine Tragerfahrzeug-Kommunikationseinheit, die mit dem entfernten Fahrzeug zum Empfangen der rundgesendeten Nachrichten vom entfernten Fahrzeug kommuniziert; a carrier Vehicle communication unit that communicates with the remote Vehicle to receive the broadcast messages from the remote Vehicle; eine Tragerfahrzeug-Steuereinheit zum Identifizieren von Referenzpunkten entlang der Fahrstrase, wobei jeder Referenzpunkt eine Position des Tragerfahrzeugs und eine Signalempfangseigenschaft identifiziert, wenn das Tragerfahrzeug die rundgesendete Nachricht empfangt; a carrier Vehicle control unit to identify the reference points along the route, wherein each reference point identifies a Position of the host Vehicle and a signal receiving property, when the host Vehicle receives the broadcast message; und and wobei die Steuereinheit des Tragerfahrzeugs einen Satz der Referenzpunkte mit identifizierten Positionen und zugehorigen Signalempfangseigenschaften auswahlt, wobei die Steuereinheit die Signalempfangseigenschaften an jedem Referenzpunkt, der einer empfangenen rundgesendeten Nachricht zugeordnet ist, verwendet, und wobei die Steuereinheit eine Position des entfernten Fahrzeugs als Funktion der Signalempfangseigenschaften an jedem ausgewahlten Referenzpunkt in dem Satz bestimmt und die Steuereinheit ferner bestimmt, ob das entfernte Fahrzeug an jedem ausgewahlten Referenzpunkt in dem Satz die gleiche Position aufweist, wobei die Steuereinheit ein Fehlverhalten durch das entfernte Fahrzeug feststellt, wenn das entfernte Fahrzeug nicht an jedem ausgewahlten Referenzpunkt in dem Satz die gleiche Position aufweist. wherein the control unit of the carrier Vehicle selects a set of the reference points with the identified Positions and associated signal reception characteristics, wherein the control unit controls the signal receiving characteristics of each reference point which is associated with a received broadcast message is used, and wherein said control unit to a Position of the remote Vehicle as a function of the signal reception characteristics determines each selected reference point in the set and the control unit further determines whether the remote Vehicle having at each selected reference point in the set in the same Position, wherein the controller detects a malfunction by the remote Vehicle if the remote Vehicle is not in on any selected reference point the set has the same Position.