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Use Case Scenario for TGai. Authors:. Date: YYYY-MM-DD. Abstract. This presentation shows an expected use case scenario for TGai . Expected User. Hiroshi is a businessperson living in Japan.
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Use Case Scenario for TGai Authors: Date: YYYY-MM-DD Hitoshi MORIOKA, ROOT INC.
Abstract This presentation shows an expected use case scenario for TGai. Hitoshi MORIOKA, ROOT INC.
Expected User • Hiroshi is a businessperson living in Japan. • He uses e-mail, Twitter and many other internet services with his smart phone supporting WLAN. • He want to update his e-mail, Twitter timeline and flight information as possible as often. • He prefers to access to the Internet by WLAN rather than 3G because of cost, speed and battery life. • He usually commutes to work by rapid train which passes several stations. Hitoshi MORIOKA, ROOT INC.
Current IEEE802.11: Commute 1 • He updates information in his home by his own private AP with IEEE802.11i before departing his home. • He walks to the station. There are several APs along the street. Some of them are operated by an commercial ISP (ISP-A) and he has an account to access them. When he walk through the AP cover area, his smart phone automatically trys to connect to the Internet by IEEE802.11i and updates information. But it often fails to connect because of latency of connection. (authentication, key exchange, upper layer setup…) He departs the AP cover area before it complete connection.Or he must stop to wait until connection and communication completes. • He arrives at the station. The station is very crowded by passengers. Here are some APs which are operated by ISP-B and available for roaming to ISP-A. His smart phone automatically trys to connect to the AP with the account of ISP-A. But it cannot connect in most cases. Because many passengers have smart phones and they also try to connect. It causes many collisions and air time shortage. • At this time, he cannot update any information after departing his home. Hitoshi MORIOKA, ROOT INC.
Current IEEE802.11: Commute 2 • He gets on a rapid train. The train passes through some stations. ISP-B operates APs at all stations along the route. When the train is passing a station, his smart phone trys to connect to a AP at the station. But it fails to connect because of latency for connection. The train passes the station before the smart phone completes connection. • He gets off the train and arrives the station. His smart phone cannot connect by the same reason at the departing station. • He walks to his office. There are some APs operated by ISP-C. ISP-C doesn’t have roaming agreement with ISP-A. So he also has an account for ISP-C. But his smart phone often fails to connect by the same reason as on the way to the departing station. • Finally, despite he has some valid account, he cannot update information on his commute way in most cases until he arrives his office. Hitoshi MORIOKA, ROOT INC.
TGai: Commute 1 • He updates information in his home by his own private AP with TGai before departing his home. • He walks to the station. There are several APs along the street. Some of them are operated by an commercial ISP (ISP-A) and he has an account to access them. When he walk through the AP cover area, his smart phone automatically trys to connect to the Internet by TGai and updates information. It can smoothly connect and update update information because of short latency for connection by TGai. • He arrives at the station. The station is very crowded by passengers. Here are some APs which are operated by ISP-B and available for roaming to ISP-A. His smart phone automatically trys to connect to the AP with the account of ISP-A. It can smoothly connect and update information because of small air time occupancy of TGai. So he can check updated information on the train. • At this time, he got the newest information. Hitoshi MORIOKA, ROOT INC.
TGai: Commute 2 • He gets on a rapid train. The train passes through some stations. ISP-B operates APs at all stations along the route. When the train is passing a station, his smart phone trys to connect to a AP at the station. It can smoothly connect and update information because of short connection latency of TGai. So he can check the newest information even in the train. • He gets off the train and arrives the station. His smart phone connects and updates information. • He walks to his office. There are some APs operated by ISP-C. ISP-C doesn’t have roaming agreement with ISP-A. So he also has an account for ISP-C. His smart phone smoothly connect and update information. • Finally, He is so happy because he can always update information on his way from home to the office. Hitoshi MORIOKA, ROOT INC.
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