Abstract
The patient monitoring during normal activity is getting more and more significant as a standard method to prevent craniology process for detection of transient ischemiaperiod ,cardiac arrhythmias as well as silent myocardium ischemic. In this paper, we mainly focus on the structureand the composition of awireless (600m) synchronizationarrhythmias invigilator as well as a alarming device for patients. To realize the corresponding functions, a Wireless Transducer Protocol (WTP) based on Time Divisibility Double (TDD) is what we require, the implemented system is totally composed of four main nodes includingthe Core (dominant) node which is a personal computer-based Graphic user system. It works at anstable frequency of 915MHz. The passive node is a digital signal processor-based board connected with the patients whichcould receive two channels of full-spectrum ECG signal at the same time, and uploads processed data at a specificperiod to the core node. The MPC8260 communications and the computeris composed of the dominant nodedesigned to receive data, decompress, and analyze the latest data baggage. The SRWF-501F915 completednoderealize the data communication.
Highlights
It is favorable for medical practitioners to get an appropriate and adequate treat if diagnosing and continuous monitoring of cardiacarrhythmias from time to time could be effective;,it is alsoimportant for health care providers to succeed in the controlling of the disease ((Hussain, Kamarul & Ahmed, 2013; Hussain, Kamarul, Mithaq & Ahmed, 2015)
The system introduced in this articlegather the functions to detect, classify, display, compress, store, and even upload the arrhythmias data samples,it can enable the patients and the physician to communicate by the means of short messages, beside,different the one before,the equipment first start using an developed lower cost design and energy consumption but with a more specific methodologies
The system's first startup is carried out in master node's APP layer.Visual C++ creates GUI to give tips to the user by the initialization of the wireless connection. It will send data through a USB port to the communication processor of MPC8260, which consists of PHY as well as Medium Access Control Layer (MAC) layers.A packet is transferred on the PHY layer, which consists of information on the management of network.The message's decoding and the transmission packets creation are performed prior to the final transfer of data via the transceiver (Kumar, Bansal Tiwari, Nayak & Narayanan, 2014; Shun, Chih, Lin & Shuenn, 2014)
Summary
It is favorable for medical practitioners to get an appropriate and adequate treat if diagnosing and continuous monitoring of cardiacarrhythmias from time to time could be effective;,it is alsoimportant for health care providers to succeed in the controlling of the disease ((Hussain, Kamarul & Ahmed, 2013; Hussain, Kamarul, Mithaq & Ahmed, 2015) Despite the fact thatnumerous diagnosis technologies adoptalikemeans to surveillancecountless physical data, for example, “Convenient Heart Invigilator” (Ahmed, Nubli, Siong, Khairi & Noraziah, 2010), “Wireless ECG” (Bhavik, 2002), Long-distanceInvigilator System (Fakharuddin, Ahmed, Abdullah, & Rauf, 2010), Wireless ECG Invigilator (Haiying , Kun, Jean & Laurent, 2005), Continuing Metrazol Exploration System (Shah, Der, Ruggerio, Heidenreich, Massie, 1998), but none of thosecould avoid thetraditional disadvantages such asline off procedure, largeenergy consumption and cost yetnear distance, single invigilator as well as always accompanied with an expensive backbones includingweb lines and GPS (Rauf, Ahmed, Ghazali, Fakharuddin, 2010). The system introduced in this articlegather the functions to detect, classify, display, compress, store, and even upload the arrhythmias data samples, ,it can enable the patients and the physician to communicate by the means of short messages, beside,different the one before ,the equipment first start using an developed lower cost design and energy consumption but with a more specific methodologies. Because of the complication of the system; we have adopted some reliable technologies such as a WSP and constructing nodes design methods to ensure that the system could be separate into different nodes
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