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¦bB5G (Beyond the 5th Generation)¦æ°Ê³q°Tºô¸ô¤¤¡A¨Ï¥ÎªÌ³]³Æ(User Equipment, UE)n¤W¶Ç¸ê®Æ¨ì¶³ºÝ¦øªA¾¹(Internet Server)®É¡A¥¦¥²¶·¥ý¶Ç°e±±¨î«Ê¥](Control Packet, CP)¨ì5G Core (5GC)¶i¦æµù¥U»P»{ÃÒ¡A±µµÛ¥¦¤~¯à¤W¶Ç¨Ï¥ÎªÌ«Ê¥](User Packet, UP)ªº¸ê®Æ¨ì¶³ºÝ¦øªA¾¹¡C¦bUE»P5GCªº¹B§@¤¤¡A¤£ºÞ¬OCP©ÎUP³£n¥ý¶Ç¨ì5GC¡A¦p¦¹¹B§@¤è¦¡·|¨S¦³¥²nªº¼W¥[UP²×ÂIºÝ¨ì²×ÂIºÝªº©µ¿ð(End-to-End Delay, ETED)¡A¬°¤F¸Ñ¨M³oÓ°ÝÃD¡A¥»pµe´£¥X¤@ӨϥΦh¦s¨úÃä½t¹Bºâ(Multi-access Edge Computing, MEC)ªºÀG¹D(Tunnel)§Þ³N¨Ó§¹¦¨±±¨î«Ê¥]»P¨Ï¥ÎªÌ«Ê¥]ªº¤À¬y(Sub-stream Separation of Control and User Packets, SSCU)¡ASSCUªº¹B§@¾÷¨î¥i¥H¤À¦¨¤TÓ³¡¤À¡A²Ä¤@Ó³¡¤À¬O·í¤@ÓCP©ÎUP¦bUE²£¥Í®É¡ASSCU·|¦bUDP (Usrer Datagram Protocol)¤W·s¼W¤@Ó«Ê¥]Âà¶Ç±±¨î¨ó©w(Packet Forwarding Control Protocol, PFCP)ªº¼ÐÀY(Header)¡A§Ų́ϥÎPFCP¼ÐÀYªº°T®§Ãþ«¬(Message Type, MT)Äæ¦ì¨Ó°Ï¤ÀCP»PUP¡C²Ä¤GÓ³¡¤À¬OSSCU¦bMEC«Ø¥ß¤@ÓÀG¹D(Tunnel)¡A¤]´N¬O¦bCP©ÎUP쥻ªºIP Header¤W¥t¥~¼W¥[¤@Ó·sªºIP Header¡C²Ä¤TÓ³¡¤À¬OSSCU¨Ï¥ÎPFCP¼ÐÀYªºMTÄæ¦ì¦b5GC¸Ñ°£ÀG¹D¨Ã±µ¦¬CP¡C¬°¤FÅçÃÒ§ÚÌ©Ò´£¥XªºSSCU¦b5G¦æ°Ê³q°Tºô¸ô¤Wªº®Ä¯à§ï¶i¡A§Ų́ϥÎTCP/UDP Sockets¨Ó¼¶¼gC»y¨¥ªº¼ÒÀÀµ{¦¡¡A¦b¤£¦PI´º¸ê®Æ¬yªº¼vÅT¤U¡A§Ṳ́ÀªR¤ñ¸ûCP»PUPªº ETED¡B¦b¸ô¥Ñ¾¹¤¤CP»PUPªº«Ê¥]¿ò¥¢²v¡B¦bInternet ServerªºUP±µ¦¬¦ì¤¸²v¡C
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In B5G mobile communication networks, when a user equipment (UE) wants to uplaod its data to an Internet server, it will first transmit control packets (CP) to 5G Core (5GC) for the registration and authentication. After that, it may be able to transmit its data via user packets (UP) to the server. In the original UE and 5GC operations, both CP and UP must be sent to 5GC first, which unnecessarily increases the end-to-end delay (ETED) of UP. To solve this problem, in this project, we propose a tunnel-based solution leveraging Multi-access Edge Computing (MEC) for Substream Separation between Control and User Packets (SSCU). The mechanism of SSCU is divided into three parts. In the first part, when a CP or UP is generated, SSCU must add a Packet Forwarding Control Protocol (PFCP) header on the top of UDP (User Datagram Protocol). We use the Message Type (MT) field in the PFCP header to distinguish between CP and UP. In the second part, a tunnel is established at MEC, adding a new IP header to the original IP header of CP or UP. In the third part, SSCU utilizes the MT field in the PFCP header to release the tunnel and receive CP. To demonstrate the effectiveness of the proposed SSCU in 5G mobile communication networks, we use TCP/UDP sockets to perform simulation written in C. From the simulation results, we analyze and compare ETED between CP and UP, with and without the influence of background traffic. Additionally, we compare packet loss rates of CP and UP in a router, and UP receiving bit rate at an Internet server.
ÃöÁä¦r ¡GB5G¡BMEC Tunnel, Sub-stream Separation, Packet Delay, Packet Loss Rate, Receiving Bit Rate. |
