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Application-Specific Configuration of Telecommunication Systems
Published in Takushi Tanaka, Setsuo Ohsuga, Moonis Ali, Industrial and Engineering Applications of Artificial Intelligence and Expert Systems, 2022
An alternative approach is the description of the requirements by a set of services, value-added services and the desired user interface. In addition, the requirements can be expressed by means of terminal equipment that supports the required services and satisfies the requirements of the user interface. The terminal equipment could be divided into dedicated types like telephones and fax terminals and universal platforms like computers. The universal platforms are modular and contain software components, which define the user interface. The interface to other system components has to be described very carefully since system components may transfer some communication functions to other system components (e.g. send a fax through an application). These possibilities have to be described as additional characteristics of this specific component.
The engineering environment
Published in Mike Tooley, Engineering A Level, 2006
Many other EC directives are applicable to engineering companies and these include: Telecommunications Terminal Equipment which relates to telecommunications products such as MODEMS, telephones, answering machines, etc.Low Voltage Directive (LVD) which relates to electrical equipment installation including cables, flexible leads and wiring.Machinery Safety Directive (MSD) which relates to a wide range of products that comprise a number of linked parts (at least one of which moves), and a source of energy that is other than human. Note that there is a list of exceptions to this directive and this includes tractors, military and police vehicles as well as freight and passenger carrying systems.
Communication systems and network technologies
Published in Kennis Chan, Future Communication Technology and Engineering, 2015
According to specific requirements there are the following five types of terminal equipment, such as: portable agricultural information service terminals, terminal data acquisition and processing, an agricultural information mobile search intelligent terminal, the agricultural enterprise specialized information terminal, and a precise automatic control terminal. This module realizes all the terminal equipment registration, data interaction, and the data management capabilities unified management. The equipment interaction and the management system accomplished an interworking of all the data from the equipment and servers, provided the information push function to the particular device, and a unified interface to the cloud platform to obtain equipment data.
Advancing Bridge Construction Monitoring: AI-Based Building Information Modeling for Intelligent Structural Damage Recognition
Published in Applied Artificial Intelligence, 2023
The data management center of the terminal equipment at the construction site must be coupled with the data management center of the intelligent construction management of the building. Among these, inadequate data collection will occur owing to insufficient setup of the number of terminal equipment (Yafeng and Hsiang 2021). The communication connection system’s degree of association is poor, and certain data are input manually, which might lead to data entry errors and blunders. The data center’s data management lacks comparison analysis of each specific management data, which may result in faulty data computation outcomes. According to current experience, the failure to properly perform the duties and roles of construction management technology is the primary cause for its limited deployment (Kensek 2014). There is a lack of synergistic application from the notion of integrating systematic application and supportive application, particularly in the application process of multiple technologies.
A BIM-based framework for road construction quality control and quality assurance
Published in International Journal of Pavement Engineering, 2023
Chengjia Han, Tao Han, Tao Ma, Zheng Tong, Siqi Wang
The BIM-based framework proposed in this paper for road construction QC&QA is shown in Figure 1. Five stages are included in this framework according to the five subsections in Section 2. Firstly, the on-site construction data is generated from different construction sections and recorded by technicians using data terminal equipment such as smart phones. Secondly, the collected data is automatically uploaded to the data interaction and processing centre, which is deployed in a cloud database. After that, a road BIM model is built based on the design and construction transmission data. Then, a BIM-based platform is established based on BIM model, which is a carrier of construction data to realise the data integration and visualisation. Finally, the BIM model is used for real-time construction quality control and assurance, which realises the guidance to the road construction sites. The whole framework enables the data interaction and closing the loop between the BIM model and the construction site.
Fuzzy based hybrid BAT and firefly algorithm for optimal path selection and security in wireless sensor network
Published in Automatika, 2023
P. Dinesh Kumar, K. Valarmathi
The system suggested an outsourcing decryption method concerning novel partial to assure computational efficiency and data security for terminal equipment and resource-constrained WSNs. The proposed method has been compared with various existing methods. It has been found that the proposed methodology efficiently decrypts cipher text and improves data security. Simulation has also been performed to assess the proposed system's performance. The proposed system showed effective results in computation, and energy consumption when compared to traditional work. Multi-authorities and attribute key revocation for WSN have to be considered in the near future [40]. Recommended an Energy and Spectrum aware Unequal Cluster based Routing (ESUCR) to solve the challenges of routing and clustering in a Cognitive Radio Sensor Network (CRSN). Many simulations have been undertaken using the NS2 tool to determine the performance of the proposed method. The proposed method has also been compared with the existing system and it has been found that the proposed methodology works efficiently in terms of PDR, end-to-end delay, and reduction in energy consumption. The proposed algorithm has to be enhanced further to attain robust performance with adaption to several occupancy models of PU spectrum [41]. In WSN, [42] Proposed TSDDR (Trust-based Secure Directed Diffusion Routing) protocol. The proposed system has been analyzed and it has been found that the proposed TSDDR prohibits the impersonation of malicious attacks. It has also exhibited end-to-end communication securely.