Abstract
The radio telemeter system was reported which was developed to monitor gas pressures at unfixed terminal points moving along with the progress of gas calorie conversion from coal gas to natural one. The system was composed of a center system and monitor system to monitor integrally terminal pressures, and terminal systems attached to governors at terminal points of each gas supply area on a medium pressure supply network. The data collected by the terminal systems were transmitted to the center system through a wireless communication system. For efficient and error-free transmission, a hagelbarger code was used because of its bit error correct function by calculation, and a noise-free delayed detection method and rapid two-way retry method were also adopted. Packet and polling communication systems were adopted for data transmission, and batch transmission was also adopted where the data stored automatically in the event of a failure are transmitted in a lump at restarting. 1 ref., 6 figs., 2 tabs.
Citation Formats
Yamaguchi, E, Kinoshita, T, and Nagao, J.
Radio telemeter system for pressure observation of unifixed point. Futeiten atsuryoku kanshiyo musen telemeter system no kaihatsu.
Japan: N. p.,
1991.
Web.
Yamaguchi, E, Kinoshita, T, & Nagao, J.
Radio telemeter system for pressure observation of unifixed point. Futeiten atsuryoku kanshiyo musen telemeter system no kaihatsu.
Japan.
Yamaguchi, E, Kinoshita, T, and Nagao, J.
1991.
"Radio telemeter system for pressure observation of unifixed point. Futeiten atsuryoku kanshiyo musen telemeter system no kaihatsu."
Japan.
@misc{etde_5705740,
title = {Radio telemeter system for pressure observation of unifixed point. Futeiten atsuryoku kanshiyo musen telemeter system no kaihatsu}
author = {Yamaguchi, E, Kinoshita, T, and Nagao, J}
abstractNote = {The radio telemeter system was reported which was developed to monitor gas pressures at unfixed terminal points moving along with the progress of gas calorie conversion from coal gas to natural one. The system was composed of a center system and monitor system to monitor integrally terminal pressures, and terminal systems attached to governors at terminal points of each gas supply area on a medium pressure supply network. The data collected by the terminal systems were transmitted to the center system through a wireless communication system. For efficient and error-free transmission, a hagelbarger code was used because of its bit error correct function by calculation, and a noise-free delayed detection method and rapid two-way retry method were also adopted. Packet and polling communication systems were adopted for data transmission, and batch transmission was also adopted where the data stored automatically in the event of a failure are transmitted in a lump at restarting. 1 ref., 6 figs., 2 tabs.}
journal = []
volume = {44:10}
journal type = {AC}
place = {Japan}
year = {1991}
month = {Oct}
}
title = {Radio telemeter system for pressure observation of unifixed point. Futeiten atsuryoku kanshiyo musen telemeter system no kaihatsu}
author = {Yamaguchi, E, Kinoshita, T, and Nagao, J}
abstractNote = {The radio telemeter system was reported which was developed to monitor gas pressures at unfixed terminal points moving along with the progress of gas calorie conversion from coal gas to natural one. The system was composed of a center system and monitor system to monitor integrally terminal pressures, and terminal systems attached to governors at terminal points of each gas supply area on a medium pressure supply network. The data collected by the terminal systems were transmitted to the center system through a wireless communication system. For efficient and error-free transmission, a hagelbarger code was used because of its bit error correct function by calculation, and a noise-free delayed detection method and rapid two-way retry method were also adopted. Packet and polling communication systems were adopted for data transmission, and batch transmission was also adopted where the data stored automatically in the event of a failure are transmitted in a lump at restarting. 1 ref., 6 figs., 2 tabs.}
journal = []
volume = {44:10}
journal type = {AC}
place = {Japan}
year = {1991}
month = {Oct}
}