IEEE P802.15.3e/D06, Oct 2016

P802.15.3e/D06, Oct 2016 is a draft technical standard for High-Rate Close Proximity Point-to-Point Communications within Part 15.3 wireless MAC and PHY specifications. It addresses how high-rate wireless personal area network links may be structured for short-range, close-proximity connections where dependable data exchange and controlled radio behavior matter. For communication and computing systems, this document helps define a consistent basis for engineering, interoperability review, and specification alignment.

About P802.15.3e/D06, Oct 2016

This document sits within the IEEE 802.15.3 family and focuses on an amendment for close-proximity point-to-point wireless communication. P802.15.3e/D06, Oct 2016 is intended to refine MAC and PHY behavior for high-rate WPAN operation, with attention to how devices manage a direct wireless link in a limited range environment. As a draft, it is mainly useful for understanding the technical direction, feature set, and requirements being developed for this part of the standard.

Where is P802.15.3e/D06, Oct 2016 used?

P802.15.3e/D06, Oct 2016 is relevant in device designs that rely on short-distance, high-throughput wireless links between two endpoints. That can include consumer electronics, embedded communications modules, and specialized computing or networking equipment where a close-proximity connection is preferred over a wider-area network. It is also useful for teams evaluating wireless MAC and PHY behavior in point-to-point scenarios, especially when system architecture depends on predictable local data transfer.

Importance in practice

In practice, P802.15.3e/D06, Oct 2016 supports more controlled design and review of close-proximity wireless links by defining how the amendment approaches high-rate communication. For engineers and procurement teams, the document can help reduce ambiguity when comparing implementations, planning compliance work, or preparing test cases for MAC and PHY behavior. It is particularly valuable when consistency, interoperability expectations, and performance verification are important in a compact wireless system.

• High-rate WPAN amendment
• Close-proximity point-to-point links
• MAC and PHY technical scope
• Draft reference for engineering review