多路径路由与拥塞控制的Overlay TCP研究

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"Overlay TCP for Multi-Path Routing and Congestion Control" 在互联网的当前环境中，单路径路由协议通常被用于连接源与目标之间的通信。然而，由于多种策略路由决策，单路径路由可能会限制可实现的吞吐量。"Overlay TCP for Multi-Path Routing and Congestion Control" 这篇论文探讨了在互联网上实现多路径路由的问题，以期通过增加可用路径来提高网络性能和效率。论文提出了一个创新的解决方案，即应用级路由器可以在互联网上形成覆盖网络，以支持多路径路由。这种方法的关键在于，通过从覆盖层路由器接收最小的拥塞反馈信号，源节点可以稳定且优化地分割流量，将数据流分散到每个源-目的对的不同路径上。这种策略允许网络更灵活地利用多个并行路径，从而可能提高整体的连接级吞吐量。作者指出，与传统的单路径拥塞控制方案相比，这种多路径路由/拥塞控制结合的方案能实现更大的吞吐量区域。这是因为多路径路由允许流量在不同的链路上分散，减少了单个链路的拥塞，同时增加了整体的传输容量。此外，通过智能地分配流量，可以更有效地平衡网络资源，提高用户服务质量（QoS）。论文引用了Kelly的工作[9,10,11]，该工作在互联网拥塞控制领域具有里程碑意义，提出了一种基于效用最大化的框架。在这种框架下，网络流量的控制目标是最大化整个系统的整体效用，而不仅仅是单个连接的吞吐量。在多路径路由的背景下，这一理论可以扩展，使得源节点能够根据反馈信息动态调整各个路径上的流量分配，从而实现全局最优。论文可能还讨论了如何处理多路径中的公平性问题，以及如何设计有效的反馈机制来确保源节点能够准确感知网络状态，并据此做出适当的流量控制决策。此外，论文可能还涉及了如何处理路径间的延迟差异、丢包率不一致等实际网络环境中的挑战，以及这些因素如何影响多路径路由的性能。这篇研究工作为互联网的多路径路由和拥塞控制提供了一个新的视角，通过利用覆盖层路由器和精巧的拥塞反馈机制，有望提升网络性能和用户体验。这一技术对于未来互联网架构的发展，尤其是在数据中心网络、移动通信和物联网等高带宽、低延迟需求的应用中，具有重要的理论和实践意义。

control the ﬂow on route r:

˙x

(t) = κ

(t − τ

)





−





m∈s(r)

(t)





(t)





, (2)

where τ

is the round trip time of route r and w

= w

for all routes r associated with user n. The term q

(t) is

the estimate of the route price at time t. This price is the sum of the individual link prices p

on that route. The

link price in turn is some function f

of the arrival rate at the link. Taking delays into account, we have

(t) =

l∈r

k:l∈k

(t − d

(l, k) − d

(l, r))

(t) = f

k:l∈k

(t − d

(l, k))

Thus,

(t) =

l∈r

(t − d

(l, r)) .

Here d

(l, r) denotes the delay from user to link l on route r and d

(l, r) denotes the delay from link l to user.

Letting q

(t) denote the marking probability on route r, we can interpret the congestion controller in (2) as

follows. For each acknowledgment received, the rate is increased by κ

and for every marked packet received,

the rate is decreased by a factor κ



m∈s(r)

(t)



. Note that he expression κ



m∈s(r)

(t)



is easily

calculated at the user end. Implementation of this controller would be by means of a window-based controller

which is obtained by simply multiplying the transmission rate x

by the RTT τ

on that route. Strictly speaking,

cannot be interpreted as marking probability since it is the sum of prices on route r. The probability a packet

is not marked on a route should be the product of the probabilities of not being marked on each link on the route.

Thus, our model so far is only applicable to a scenario where q

is very small. However, we can also deal with

the more general case as we show in §4. Before we proceed further, we make the following comment on our

congestion feedback model. Typically congestion feedback is generated at the router based on the queue length

or the virtual queue length at the router. We do not explicitly include queue length in our model and assume that

the congestion cost is directly a function of the arrival rate. Kelly argues that such an assumption is realistic [9]

if there are stochastic disturbances and the queue length hits zero several times within an RTT. Regimes under

which this assumption is valid have been identiﬁed in [5]. Alternatively, we can assume that congestion feedback

is indeed based on the instantaneous arrival rate. However, the arrival rate cannot be measured instantaneously

and one has to resort to some averaging to estimate the arrival rate. This can be modeled as in [22], and our

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多路径路由与拥塞控制的Overlay TCP研究

glog.overlay-x64_v120_dynamic 和 opencv2.4.10nuget版

glog.overlay-x64_v120_dynamic opencv2.4.10等（nuget版）

这里为什么要多次unmount base_wa # 卸载overlay for overlay_dir in overlay_dirs[::-1]: subprocess.run(["umount", base_wa]) subprocess.run(["rm", "-rf", overlay_dir])

ACTION_MANAGE_OVERLAY_PERMISSION

''' TODO ''' def overlay_bind(wa_path, base_wa_path): pass def overlay_unbind(wa_path, base_wa_path): 写一个python函数, 在子进程执行一个python函数, 该函数的参数通过args传入, 执行的结果不要打印出来

请详细解释一下 subprocess.run(["mount", "-t", "overlay", "-o", f"lowerdir={wa_dir},upperdir={overlay_dir},workdir={overlay_dir}", "overlay", base_wa])

嵌入式开发中，overlay_mgr.可能是包含什么功能的代码

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