Abstract

In today's global competition environment with rapid changes in market and technology, it is more and more difficult for enterprises to fully grasp the latest knowledge and learn all the technologies by relying on their own strength. It is particularly important for enterprises to establish a network relationship of a certain intensity with other external entities (upstream and downstream enterprises, peer enterprises, scientific research institutions, government departments, financial institutions, and other organizations) for their technological learning and improvement of technological innovation performance. From different perspectives, the academic circles have confirmed that the strength of network relationship does have an impact on the technological innovation performance of enterprises. This paper will explore the measurement scale of technology learning cost, and from the basic perspective of technology learning cost, deeply explore and analyze how enterprise technology innovation performance is affected by the strength of enterprise network relationship. This paper argues that the strength of network relationship can affect the cost of technology learning and therefore the performance of technology innovation. The main contents of this study include the following. (1) Through the collation and review of the related theories of network relationship strength, technological learning cost and technological innovation performance, and the existing research results, the theoretical model of this study is established, and the theoretical assumptions of this study are put forward. (2) A presurvey is carried out first, and the data collected from the presurvey are used to test the reliability and validity of the scale of this study, and the appropriate measurement scales for the strength of network relationship, technology learning cost, and technology innovation performance are determined. (3) Adopt the method of regression analysis combined with the SME method, to verify this paper builds the theoretical model, and further clarify the network relation intensity, technology acquisition cost, and cost of technological learning all dimensions and performance of technological innovation and network strength, technological learning mechanism between cost, and performance of technological innovation.

Highlights

  • In today’s society, the market is changing rapidly and technology is changing rapidly

  • (2) A presurvey is carried out first, and the data collected from the presurvey are used to test the reliability and validity of the scale of this study, and the appropriate measurement scales for the strength of network relationship, technology learning cost, and technology innovation performance are determined

  • (3) Adopt the method of regression analysis combined with the SME method, to verify this paper builds the theoretical model, and further clarify the network relation intensity, technology acquisition cost, and cost of technological learning all dimensions and performance of technological innovation and network strength, technological learning mechanism between cost, and performance of technological innovation

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Summary

Introduction

In today’s society, the market is changing rapidly and technology is changing rapidly. E specific hardware modules of the intelligent trash cans are divided into SCM main control board, overfill automatic monitoring module, temperature detection module, voice prompt module, steering gear drive module, wireless communication module, and power module. Is module is based on Bluetooth wireless communication to receive information from the upper computer, so as to determine which part of the steering gear to control the switch cover of the garbage bucket. It is controlled by the high and low level of the I/O output of the single chip microcomputer, and it drives the starting and stopping and reversing of the steering gear through the on-off of the control bridge arm. It is controlled by the high and low level of the I/O output of the single chip microcomputer, and it drives the starting and stopping and reversing of the steering gear through the on-off of the control bridge arm. en, the system determines which door is always open when no one is operating, and quickly feedback the information to the main control board. e main control board receives the information and controls the work of the steering gear. e steering gear rotates at a certain angle to complete the closing of the bucket cover, and the module basically completes the opening and closing of the trash can cover

Deep Learning Algorithm Model
Simulation Experiment
Conclusions

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