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Constructing method and system for two-dimensional bipolar code of zero-correlation region in time/frequency domain

A zero-correlation zone and bipolar code technology, applied in the field of communication, can solve problems such as small code word capacity, complex power control, and unsatisfactory cross-correlation characteristics, to eliminate multiple access interference and beat noise, and eliminate near-far effects Effect

Active Publication Date: 2017-06-20
SHENZHEN UNIV
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Problems solved by technology

At present, the two-dimensional coherent OCDMA system uses a bipolar m-frequency hopping sequence, the address code cannot be completely orthogonal (the minimum cross-correlation limit is 1), and the cross-correlation characteristics are not ideal, so the system has multiple access interference and beat noise
Especially when the number of concurrent users is large, multiple access interference and beat noise become the most important noises, causing the bit error rate of the two-dimensional coherent OCDMA system to rise sharply, thereby limiting the number of access users of the two-dimensional coherent OCDMA
At the same time, since the address codes cannot be completely orthogonal, the near-far effect exists in the two-dimensional coherent OCDMA system, which requires complex power control
Therefore, the current two-dimensional coherent OCDMA system is difficult to be practical
[0006] Ji Jianhua and others constructed a bipolar frequency hopping code with no collision zone, which can eliminate multiple access interference and beat noise, but the code word capacity is small (equal to the effective number of wavelengths of the system), which limits the capacity of the two-dimensional coherent OCDMA system. Unable to realize large-capacity two-dimensional coherent OCDMA system

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  • Constructing method and system for two-dimensional bipolar code of zero-correlation region in time/frequency domain
  • Constructing method and system for two-dimensional bipolar code of zero-correlation region in time/frequency domain
  • Constructing method and system for two-dimensional bipolar code of zero-correlation region in time/frequency domain

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Embodiment Construction

[0029] Such as figure 1 As shown, the present invention discloses a method for constructing a time / frequency domain zero-correlation zone two-dimensional bipolar code, comprising the following steps:

[0030] Step S1. constructing a time-domain zero-correlation zone spreading sequence LA with a zero-correlation zone;

[0031] Step S2. Constructing a single coincident sequence in the frequency domain;

[0032] Step S3. Constructing a Walsh sequence;

[0033] Step S4. Combining the time-domain zero-correlation zone spreading sequence of the zero-correlation zone with the single coincidence sequence in the frequency domain to form a time / frequency domain zero-correlation zone two-dimensional optical orthogonal code;

[0034] Step S5. Combining the time / frequency domain zero-correlation zone two-dimensional optical orthogonal code with the Walsh sequence to form the time / frequency domain zero-correlation zone two-dimensional bipolar code.

[0035]In step S1, let m and ZCZ be po...

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Abstract

The invention provides a constructing method and system for the two-dimensional bipolar code of a zero-correlation region in time / frequency domain. The constructing method comprises the steps that A a time domain zero-correlation region spread-spectrum sequence LA with the zero-correlation region is constructed; B a single coincidence sequence in frequency domain is constructed; C a Walsh sequence is constructed; D the time domain zero-correlation region spread-spectrum sequence of the zero-correlation region is combined with the single coincidence sequence in frequency domain are combined to form a time / frequency domain zero-correlation region two-dimensional optical orthogonal code; and E the time / frequency domain zero-correlation region two-dimensional optical orthogonal code is combined with the Walsh sequence to form the two-dimensional bipolar code of the zero-correlation region in time / frequency domain. The method and the system have the advantages that multi-site interference and beat noise of a two-dimensional coherent OCDMA system are completely eliminated; the near-far effect of the two-dimensional coherent OCDMA system can be eliminated; the large-capacity two-dimensional coherent OCDMA system can be realized; and the method and the system can be applied to an optical access network, an optical local area network, an optical code tag switching network, a fiber optic sensor network and the like.

Description

technical field [0001] The invention relates to the field of communication technology, in particular to a construction method and system for a time / frequency domain zero-correlation zone two-dimensional bipolar code. Background technique [0002] Optical Code Division Multiple Access (OCDMA) has the characteristics of broadband, security and random instant access, and is one of the best solutions for future high-speed local area networks and access networks. According to the degree of freedom, it can be divided into one-dimensional OCDMA system and two-dimensional OCDMA system. The address code of the two-dimensional OCDMA system not only expands in the time domain, but also expands in the wavelength, which is called two-dimensional optical orthogonal code. [0003] At present, many scholars at home and abroad have constructed many types of two-dimensional OCDMA address codes. PC / PC and EQC / PC were constructed based on Primecode (Primecode), Tancevski.L, etc. The autocorrel...

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Application Information

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IPC IPC(8): H04J13/12H04J13/14H04J13/00H04J14/00
CPCH04J13/0048H04J13/007H04J13/12H04J13/14H04J14/007
Inventor 吉建华欧阳攀王可徐铭张志朋杨淑雯
Owner SHENZHEN UNIV
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