Real-time Remote Transmission Research Articles

Smart Predictive Maintenance Device for Critical In-Service Motors

The paper proposed an innovative predictive maintenance system, designated to monitor and diagnose critical electrical equipment (generally large power electric motors) within industrial electrical installations. A smart and minimally invasive system is designed and developed. Its scope is to evaluate continuously the essential operating parameters (electrical, thermal, and mechanical) of the investigated equipment. It manages to report the deviations of inspected machine operating parameters values from the rated ones. The system also suggests the potential cause of these abnormal variations along with possible means (if the defect is identified in a database, constantly updated with each appearance of a malfunction). The developed maintenance device generates an operating report of the analyzed equipment, in which the values of power quality and energy indicators are computed and interpreted. Additionally, real-time remote transmission of analyzed data is facilitated, making them accessible from any location. The proposed maintenance system is a low-cost device that is easy to install and use in comparison with similar existing devices and equipment. The designed maintenance system was tested on dedicated to low-voltage equipment up to 100 kW.

WITHDRAWN: Remote Music Teaching Classroom Based on FPGA High-Performance Algorithm

Abstract At the moment, music education information has been transmitted in real time, with some information lost, which is not effective in education. The research content of this proposal is based on an FPGA (Field Programmable Gate Array)-based remote music education collection and processing system. At the same time, this study mainly uses FPGA High Performance Algorithm to enable platform and simulation remote collection, conversion, storage, display, and transmission. In this study, to solve the problem of remote real-time transmission of the high-definition video stream and improve the subjective quality of the video, the high- FPGA High Performance Algorithm processing of collected on the receiving side is a blocking sensation in a remote music instruction classroom and the learning practice is added to reduce the number and is learning on the receiving side. Finally, validation tests aim to confirm the perspective of the research. Experimental results show that the system achieves its design goals by providing the ability to collect, transform, display, and transmit stable remote music instruction classrooms. However, due to time constraints and other conditions, the overall design needs can be further enhanced so that it can provide the basis for the subsequent development of information and communication technology in music education based on FPGA High Performance algorithm.

A Portable Farmland Information Collection System with Multiple Sensors.

Precision agriculture is the trend of modern agriculture, and it is also one of the important ways to realize the sustainable development of agriculture. In order to meet the production requirements of precision agriculture—efficient use of agricultural resources, and improving the crop yields and quality—some necessary field information in crop growth environment needs to be collected and monitored. In this paper, a farmland information collection system is developed, which includes a portable farmland information collection device based on STM32 (a 32-bit comprehensive range of microcontrollers based on ARM Crotex-M3), a remote server and a mobile phone APP. The device realizes the function of portable and mobile collecting of multiple parameters farmland information, such as chlorophyll content of crop leaves, air temperature, air humidity, and light intensity. UM220-III (Unicore Communication Inc., Beijing, China) is used to realize the positioning based on BDS/GPS (BeiDou Navigation Satellite System, BDS/Global Positioning System, GPS) dual-mode navigation and positioning system, and the CDMA (Code Division Multiple Access, CDMA) wireless communication module is adopted to realize the real-time remote transmission. The portable multi-function farmland information collection system is real-time, accurate, and easy to use to collect farmland information and multiple information parameters of crops.

基于μC/OS-II的无线传感器网络网关的设计与实现

随着无线传感器网络的大规模应用，应用系统对传感网络传输实时性的提升，汇聚节点感知数据的远程实时传输显得尤为重要。本文将基于ZigBee协议的无线传感器网络与基于TCP/IP协议的Internet相连接，并引入μC/OS-II嵌入式实时操作系统，对系统资源进行管理和调度。实验结果表明，所设计的网关能够有效解决数据远程传输的问题，同时能够满足应用监控的实时性要求。 With the large-scale application of wireless sensor network (WSN), in this application system, it is particularly important to promote the transmission real-time and achieve the remote real-time transmission of the data that the sink nodes sensor gets. This paper uses the way of the connection of the WSN based on Zigbee protocol and the Internet based on TCP/IP protocol, meanwhile in-troduces μC/OS-II embedded real-time operating system to manage and schedule the system re-source. The experiment result shows that the design of this gateway can effectively solve the problem of data remote transmission, and also can meet the real-time requirement of the applica-tion monitoring.

Study on the Impacts of remote real-time transmission 12-lead electrocardiogram system on door-to- balloon time in patients with ST-segment elevation myocardial infarction

Objective This study was aimed to evaluate the remote real-time transmission 12-lead electrocardiogram system on door-to-balloon time in patients with ST-segment elevation myocardial infarction. Methods We retrospectively analyzed the consecutive patients with STEM I who had accepted primary percutaneous coronary intervention (PCI) in the chest pain center of our hospital from February 2012 to July 2012. The study group consisted of patients with pre-hospital ECG, while the control group included patients without pre-hospital ECG, Their door-to-balloon time and door-to-catheter room time, mortality w ere compared. Results Totally 60 consecutive patients who had received primary PC I for STEMI were evaluated. Among them, 35 patients were hospitalized with pre-hospital ECG while the other 25 patients without ECG. The Pre-hospital ECG was associated with a significantly shorter median door-to-balloon time (38 min vs. 94min; P 0.05), Significant difference was seen in the median hospital time in study group (5 compared with control group (7day) (5 day vs. 7 day ; P <0.01). Conclusions The remote real-time transmission 12-lead electrocardiogram system is associated with a significantly shorter door-to- balloon time in STEMI patients. The remote real-time transmission 12-lead electrocardiogram system is recommended in patients suspected STEMI. Key words: Acute ST-segment elevation myocardial infarction; Pre-hospital electrocardiogram; Door-to-balloon time; Electrocardiogram/remote-electrocardiogram; Real-time; Tele-medicine; Remote ECG monitoring; Wireless/3G; Pre-hospital diagnosis

Study on Facilities Agriculture Remote Monitor and Control System Based on Tri-Networks Convergence

Facility agriculture environment monitoring system of the existing main adopts the wired communication technology, such as serial bus technology and field bus technology for communication. This system has the advantages of good interoperability, strong anti-interference ability, but the poor stability, low reliability, difficult to deploy, installation and maintenance costs high, which greatly limits its application in the design of facilities agriculture field. Three nets fusion refers to the 3G, RFID and Internet combination. In this paper, the 3G network, wireless radio frequency technology and Internet technology combining, in order to solve the above problems, the use of 3G network and the Internet to a large amount of data real-time remote transmission, using radio frequency network RFID technology through the short distance wireless data transmission terminal sensors to collect information, these information in time through the3G network and the Internet are transmitted to the the remote controller. The remote controller sends according to terminal sensor control information, through the 3G network and the Internet will control information is transmitted to the radio frequency network, wireless RF network through wireless communication control information is transmitted to the terminal controller, the final completion of the remote monitoring and control of agricultural facilities. The experimental results show that, the system can meet the real-time and can perform remote transmission for large data, provide the technical basis of visual audio data monitoring information transmission for agricultural facilities.

Data Transmission System for Ground Automatic Disaster Monitoring in Mine

Data transmission about ground automatic disaster monitoring system in mine is the key technology link. A method based on data transmission system is proposed, which combined Ethernet technology of wire communication and WiFi technology of wireless communication in mine. The system implements a variety of functions including automatic acquisition of deformation monitoring data, remote real-time transmission, and so on. Through systematic research and practical application on the selection of data communication mode, system structure, key technology and so on, it indicates the system is reliable and maintainable, which provides the technical support for mine's safety and high-efficient production.