Modelo para medir el rendimiento de servidore4s de video vigilancia

Abstract

Currently have a surveillance system ceased to be a luxury, to be an important part of everyday life for a family home or a company, the video surveillance system currently offers a wide range of possibilities, from monitoring a home or workplace to have a control of the movements that happen in a company, these systems need to have a storage place to have the recordings stored and to review and analyze anomalies in the home or company, this point will depend on the needs required by the customer and the following questions are formulated, What type of server should I purchase- Which server fits my needs- from these questions the need to acquire a specialized server arises. For these reasons it is desired to implement a model that helps to answer these questions and that helps to measure the performance in storage in video surveillance servers by means of the analysis and bibliographic review. To achieve this goal, 4 phases are proposed. In the first phase of the model, the type of server will be analyzed with respect to the evaluation metrics of the line of research, where the main, general and network characteristics of the server will be analyzed. Phase 2 will analyze the type of camera and its general characteristics, corresponding to the client's adaptations. The phase 3 of the model is the most important in this phase the performance of the server will be measured, in this three criteria or aspects will be taken into account, first the bandwidth used by the video surveillance system will be obtained and the performance that our server needs to meet the demand for recording storage system will be obtained, in the second aspect we will obtain the storage that will occupy per day, month or per year of the whole system and contemplating load tests we will analyze if the performance of our server is enough to supply the storage demand, in the third aspect we will make a performance test between the total storage of our server with respect to the storage that will be needed as established by the client. where the performance will be obtained with respect to the recording and demand of the same with respect to the recording. In phase 4 of the model, a technical support of the server is implemented, an important factor to maintain an optimal performance of the video surveillance server. In phase 4 of the model, it is considered to have an improvement plan, here the results obtained in phase 3 are considered. When applying a case study and applying the first phase of the model, the TS-H1683XU-RP NAS Server is chosen, with an Intel Xeon E-2136 processor, 128 GB of RAM memory installed, with speed 2666 MT/s, in terms of storage it has 16 bays, 8 bays are occupied where each one will have a 14 TB Western Digital Plus NAS disk at 7200 RPM, giving a total of 112 TB.