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How reputation and duplex transmission channels improve Blockchain efficiency

Abstract and 1. Introduction

1.1 The background

1.2 The motivation

1.3 Our work and our contributions and 1.4 organizations

  1. Related work

    2.1 Mobile AIGC and QOE modeling

    2.2 Blockchain for mobile networks

  2. Introductory

  3. Prosecutor design

    4.1 Overview of Architectural Engineering

    4.2 Roll reputation

    4.3 Duplex Transmission Channel

  4. OS2A: Mobile AIGC’s objective service evaluation

    5.1 Inspiration from DCM

    5.2 Quality target for the service process

    5.3 AIGC outputs

  5. OS2A on the Public Prosecutor: AIGC mobile interaction

    6.1 MASP choice with reputation

    6.2 Contracting theoretical payment system

  6. Implementation and evaluation

    7.1 Exercise and experimental preparation

    7.2 Public Prosecutor Performance Assessment

    7.3 Investigation of job goals

    7.4 Security Analysis

  7. Conclusion and references

4.2 Roll reputation

Next, we show the Layer-2 design for the anchor series, including reputation transport channels and dual transport channels. Traditionally, all historical opinions should be saved on the professor’s book for every MASP. However, the increase in the growing data volume descends from large storage resources from MASPS. Given that opinions only work as evidence to track reputation, we intend to cancel their download from the anchor series and we only keep the most important messages of the books. As shown in The algorithm 1, We develop layer 2 reputation, which contains the following steps.

2) Reputation pressure: Upon arrival at the threshold, RCOS alternates to compress the received transactions. Specifically, these transactions are subject to the S256 process in a sequence in chronological order. After that, the Roll-UP BR block can be created by containing the retail only, as shown in Figure 2. Compared to one block containing 1000 transactions, which usually occupies 500 bytes. [30]And one BR that contains 1000 fragments occupies only 32.5 byte because each output is 256 bit [44]. Thus, the consumer data volume can be compressed to provide historical reputation records effectively.

Figure 3: Clarification of atomic property transportation. The operations developed by the red dotted lines are building one atomic process that must be performed simultaneouslyFigure 3: Clarification of atomic property transportation. The operations developed by the red dotted lines are building one atomic process that must be performed simultaneously

4.3 Duplex Transmission Channel

The design of the second layer is the dual transport channels between each pair of MASP-CLINT, where we realize the transfers of atomic property. These channels are hypothetical 7 and their establishment through the specified smart contract. Inside the channel, participants can make multiple rounds of atomic transfers protected by a retail protocol (HL). Channel preparation and closure should only be recorded on the anchoring chain. Since the transmission processes within the channels, a low transition time can be guaranteed, and the work burden can also be reduced in the anchoring chain. Next, we offer the conversion of the ownership of atomic fees on the channel.

Authors:

(1) Yinqiu Liu, College of Computer Science and Engineering, Nianang University Technology, Singapore ([email protected]);

(2) Hong Yang Du, College of Computer Science and Engineering, Nianiang Technological University, Singapore ([email protected]);

(3) Doset Nayato, College of Computer Science and Engineering, Nianang University Technology, Singapore ([email protected]);

(4) Jiawain Kang, Automation College, Guangdong University of Technology, China ([email protected]);

(5) Zehui Xiong, Information and Design Systems Technology Pillar, Singapore University of Technology and Design, Singapore ([email protected]);

(6) Abbas Gamalpur, College of Electrical Engineering and Information Engineering, Sydney University, Australia ([email protected]);

(7) Xuemin (Sherman) Sheen, Department of Electrical and Computer Engineering, University of Waterloo, Canada ([email protected]).


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