Coded PPM and Multipulse PPM and Iterative Detection for Free-Space Optical Links

Fang Xu; Mohammad-Ali Khalighi; Salah Bourennane

doi:10.1364/JOCN.1.000404

Journal of Optical Communications and Networking
Vol. 1,
Issue 5,
pp. 404-415
(2009)
•https://doi.org/10.1364/JOCN.1.000404

Coded PPM and Multipulse PPM and Iterative Detection for Free-Space Optical Links

Fang Xu, Mohammad-Ali Khalighi, and Salah Bourennane

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Fang Xu, Mohammad-Ali Khalighi, and Salah Bourennane, "Coded PPM and Multipulse PPM and Iterative Detection for Free-Space Optical Links," J. Opt. Commun. Netw. 1, 404-415 (2009)

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Table of Contents Category
- Research Papers
Optics & Photonics Topics
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The topics in this list come from the Optics and Photonics Topics applied to this article.
Previously assigned OCIS codes
- Modulation (060.4080)
- Free-space optical communication (060.2605)

About this Article
History
- Original Manuscript: May 14, 2009
- Manuscript Accepted: July 6, 2009
- Published: September 18, 2009

Abstract

Signal modulation has an important impact on the system performance in optical communication. Two attractive modulation schemes are pulse position modulation (PPM) and multipulse PPM (MPPM), which have the advantage of average energy efficiency and bandwidth efficiency, respectively. An important practical issue is to employ an efficient channel coding of reasonable (decoding) complexity adapted to these modulations. In this view, we consider the use of a classic binary convolutional code together with iterative soft demodulation and channel decoding at the receiver. In particular, we discuss the impact of bit-symbol mapping on the iterative receiver performance and provide design rules for optimal mapping in the case of MPPM.

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No. of Symbol Sets	No. of Possible Bit-Symbol Mappings	d	$d_{1}$	$d_{2}$	$b_{2} b_{1}$	0 0	0 1	1 0	1 1
3	$8 \times 3 = 24$	2.67	2	4	Hell	0 1 0 1	0 1 1 0	1 0 0 1	1 0 1 0
3	$16 \times 3 = 48$	2.67	3	2	Best	0 1 0 1	1 0 1 0	0 0 1 1	1 1 0 0
12	$8 \times 12 = 96$	2.33	2	3	Bad	0 1 0 1	0 0 1 1	1 1 0 0	0 1 1 0
12	$16 \times 12 = 192$	2.33	2.5	2	Good	0 0 1 1	0 1 0 1	1 1 0 0	0 1 1 0

$b_{3}$ $b_{2}$ $b_{1}$	0 0 0	0 0 1	0 1 0	0 1 1	1 0 0	1 0 1	1 1 0	1 1 1	d	$d_{1}$	$d_{2}$	$d_{3}$
Best	11000000	00001010	00110000	00000101	00000011	01010000	00001100	10100000	3.4	4	3.3	2
Good	11000000	10100000	01010000	00110000	00001100	00000101	00001010	00000011	3.4	2.7	4	4
Bad	01100000	10001000	10000100	10010000	10000010	11000000	10000001	10100000	2.4	2.5	2.3	2
Worst	01100000	10100000	11000000	10001000	10000010	10000100	10000001	10010000	2.4	2.2	2.5	2.5

No. of Symbol Sets	No. of Possible Bit-Symbol Mappings	d	$d_{1}$	$d_{2}$	$b_{2} b_{1}$	0 0	0 1	1 0	1 1
3	$8 \times 3 = 24$	2.67	2	4	Hell	0 1 0 1	0 1 1 0	1 0 0 1	1 0 1 0
3	$16 \times 3 = 48$	2.67	3	2	Best	0 1 0 1	1 0 1 0	0 0 1 1	1 1 0 0
12	$8 \times 12 = 96$	2.33	2	3	Bad	0 1 0 1	0 0 1 1	1 1 0 0	0 1 1 0
12	$16 \times 12 = 192$	2.33	2.5	2	Good	0 0 1 1	0 1 0 1	1 1 0 0	0 1 1 0

$b_{3}$ $b_{2}$ $b_{1}$	0 0 0	0 0 1	0 1 0	0 1 1	1 0 0	1 0 1	1 1 0	1 1 1	d	$d_{1}$	$d_{2}$	$d_{3}$
Best	11000000	00001010	00110000	00000101	00000011	01010000	00001100	10100000	3.4	4	3.3	2
Good	11000000	10100000	01010000	00110000	00001100	00000101	00001010	00000011	3.4	2.7	4	4
Bad	01100000	10001000	10000100	10010000	10000010	11000000	10000001	10100000	2.4	2.5	2.3	2
Worst	01100000	10100000	11000000	10001000	10000010	10000100	10000001	10010000	2.4	2.2	2.5	2.5

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