Hi Richard, Thanks for this information.
Just out of curiosity, are the proposed extensions currently discussed in the 3GPP? Cheers, Med De : alto <[email protected]> De la part de Y. Richard Yang Envoyé : mardi 19 juillet 2022 20:14 À : IETF ALTO <[email protected]> Objet : [alto] Cellular information exposure discussion (Fwd: New Version Notification for draft-huang-alto-mowie-for-network-aware-app-04.txt Hi ALTO WG, During the weekly meeting today, the design team discussed about the document, and suggested that the authors update the WG on a new version of the MOWIE draft, which was uploaded last week and focuses on cellular network information exposure to network-aware applications. The links to the new version and the diff showing the updates can be found below. Any comments, feedback, or interests in working together are welcome and greatly appreciated. Using this email, we also want to include that there are two quite relevant pieces of work: W1. PBE-CC: Congestion Control via Endpoint-Centric, Physical-Layer Bandwidth Measurements (https://arxiv.org/abs/2002.03475), by Yaxiong Xie, Prof. Jamieson, and Prof. Rexford; W2. Achieving Consistent Low Latency for Wireless Real-Time Communications with the Shortest Control Loop (paper to be made public soon), by Zili, and Prof. Mingwei and team. It helps to use this email to point out a bigger picture of the problem space and related work. One perspective is that the problem space consists of 3 components: C1. What cellular-network information should be collected to be sent to the applications? C2. How is the cellular information sent to the applications? C3. How do the applications use the information? It is important to note that the full exploration of the problem space is not included in the current charter. However, this is an important problem space and hence it helps to keep track of the progress and potential impacts on ALTO. For C1, the impact will be the list of performance metrics. For C3, the current ALTO charter does not include items to define application behaviors, but it can be a point of discussion related to deployment. The most relevant component is C2. We discussed the following design points for C2: D-broadcast: network broadcasts its state D-pass-bounce: network marks its state on pass-through packets and the receiver bounces the state back to the sender D-direct-send: network sends its state to app directly Here by state it can be transformed state. Current ALTO is designed as D-direct-send. Due to lacking of deployment of D-direct-send in cellular network, aforementioned W1 uses D-broadcast; the D-pass-bounce design need at least a round trip time and couples network feedback flow with data flow, leading to the aforementioned W2 work. Many of us feel that the time is ready for introducing a highly efficient, flexible channel for network state exposure to applications, led by IETF, and the ALTO team can be a good starting point. As a first step, a systematic evaluation, which (1) surveys the design space and (2) introduces the use cases/benchmarking scenarios, can be a good starting point. If there is time available in the coming 114 meeting, we can discuss more during the presentation. Otherwise, on-list discussion is a good starting point. We will follow up with more analysis on the list soon but use this email to get the conversation started. Thanks, Richard on behalf of Tuesday meeting team ---------- Forwarded message --------- From: <[email protected]<mailto:[email protected]>> Date: Mon, Jul 11, 2022 at 2:14 PM Subject: New Version Notification for draft-huang-alto-mowie-for-network-aware-app-04.txt To: Y. Richard Yang <[email protected]<mailto:[email protected]>>, Gang Li <[email protected]<mailto:[email protected]>>, Sabine Randriamasy <[email protected]<mailto:[email protected]>>, Yixue Lei <[email protected]<mailto:[email protected]>>, Yuhang Jia <[email protected]<mailto:[email protected]>>, Yunbo Han <[email protected]<mailto:[email protected]>>, Yunfei Zhang <[email protected]<mailto:[email protected]>> A new version of I-D, draft-huang-alto-mowie-for-network-aware-app-04.txt has been successfully submitted by Y. Richard Yang and posted to the IETF repository. Name: draft-huang-alto-mowie-for-network-aware-app Revision: 04 Title: MoWIE for Network Aware Applications Document date: 2022-07-11 Group: Individual Submission Pages: 25 URL: https://www.ietf.org/archive/id/draft-huang-alto-mowie-for-network-aware-app-04.txt Status: https://datatracker.ietf.org/doc/draft-huang-alto-mowie-for-network-aware-app/ Htmlized: https://datatracker.ietf.org/doc/html/draft-huang-alto-mowie-for-network-aware-app Diff: https://www.ietf.org/rfcdiff?url2=draft-huang-alto-mowie-for-network-aware-app-04 Abstract: With the quick deployment of 5G networks in the world, cloud-based interactive applications (services) such as cloud gaming have gained substantial attention and are regarded as potential killer applications. To ensure users' quality of experience (QoE), a cloud interactive service may require not only high bandwidth (e.g., high- resolution media transmission) but also low delay (e.g., low latency and low lagging). However, the bandwidth and delay experienced by a mobile and wireless user can be dynamic, as a function of many factors, and unhandled changes can substantially compromise the user's QoE. In this document, we investigate network-aware applications (NAA), which realize cloud based interactive services with improved QoE, by efficient utilization of a solution named Mobile and Wireless Information Exposure (MoWIE). In particular, this document demonstrates, through realistic evaluations, that mobile network information such as MCS (Modulation and Coding Scheme) can effectively expose the dynamicity of the underlying network and can be made available to applications through MoWIE; using such information, the applications can then adapt key control knobs such as media codec scheme, encapsulation, and application layer processing to minimize QoE deduction. Based on the evaluations, we discuss how the MoWIE features can define extensions of the ALTO protocol, to expose more lower-layer and finer grain network dynamics. The IETF Secretariat -- Richard -- Richard _________________________________________________________________________________________________________________________ Ce message et ses pieces jointes peuvent contenir des informations confidentielles ou privilegiees et ne doivent donc pas etre diffuses, exploites ou copies sans autorisation. Si vous avez recu ce message par erreur, veuillez le signaler a l'expediteur et le detruire ainsi que les pieces jointes. Les messages electroniques etant susceptibles d'alteration, Orange decline toute responsabilite si ce message a ete altere, deforme ou falsifie. Merci. This message and its attachments may contain confidential or privileged information that may be protected by law; they should not be distributed, used or copied without authorisation. 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