Design, implementation, and evaluation of a single-copy protocol stack
Software—Practice & Experience
IO-Lite: a unified I/O buffering and caching system
ACM Transactions on Computer Systems (TOCS)
Exploiting NIC architectural support for enhancing IP-based protocols on high-performance networks
Journal of Parallel and Distributed Computing - Special issue: Design and performance of networks for super-, cluster-, and grid-computing: Part II
On the way towards fourth-generation mobile: 3GPP LTE and LTE-advanced
EURASIP Journal on Wireless Communications and Networking - 3GPP LTE and LTE Advanced
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Today's embedded systems are required to have stronger wired/wireless communication capability. Due to strict limitations on how they utilize resources such as power, address space, and processing ability, network protocols for embedded systems are designed to make the best use of constrained resources. They are developed in a way that allows for support from a range of operating systems and thus utilizes platform-independent architectures. This paper presents an Internet protocol stack design for embedded systems that operate without an operating system. Our scheme schedules the transmission and the reception of the data packets and uses cross-layer optimization. We implemented the proposed scheme in a LTE network device. The overhead of our scheme is low and it subsequently meets the constraint of transmission speed in the next generation mobile communication environments.