Browsing by Author "Khadase, Rahul"

Now showing 1 - 7 of 7
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    Analysis of soil using microstrip patch antenna as a sensor
    (AIKTC, 2018-05) Khadase, Rahul; Ansari, Saddam T. (14ET18); Momin, Mohd. Asif (14ET30); Shaikh, Arbaz (14ET37)
    This paper proposes a four-shaped MSPA which can be used for the analysis of soil fertility. The proposed antenna has a resonant frequency of 1.5GHz with S11-22dB. It has been designed with FR4 epoxy having dielectric constant 4.4(the soil will act as superstrate). The resonant frequency is inversely proportional to the dielectric constant. It has been noticed that as the percentage of fertilizer in the soil increases, its Fr decreases hence, its dielectric constant increases. Thus, the resonant frequency of the MSA will change if there is any change in the fertility of soil. This device is cheap and small in size and can be easily used.
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    Blood cell monitoring based on FPGA, implemented using VHDL
    (Journal of Research in Engineering and Applied Sciences, 2017-10) Khan, Zarrarahmed; Pathan, Siraj; Pathan, Riyaz; Ali, Zeeshan; Khadase, Rahul; Alvi, Rizwan
    This paper showcases a system in the medical field which will assuage the limitations in today's blood cell monitoring since everything will be done digitally. Our work is a combination of image processing and its implementation in hardware. This system will not only store the information of patients' blood components, but it will also indicate the deficiencies using an Alert signal. Area wise storage of patients' information will help in Area Wise Analysis of data. This blood cell monitoring system is designed on Xilinx ISE 14.6 using VHDL and implemented on Spartan 3A based FPGA (Field Programmable Gate Array). In medical camps it is very difficult to test blood samples of thousands of people with pharmaceutical techniques and at that time this Blood Cell monitoring system will give proper ease to test blood samples as it will require few microscopic pics only and image processing will be done at ultra-high speed since we are using the FPGA. FPGA will itself process images, store relevant data and display them in proper fashion.
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    Design of a dual-band MIMO antenna for 5G smartphone application
    (AIKTC, 2020-05) Khadase, Rahul; Suleman, Mir (17DET49); Faizan, Khan (17DET44); Maaz, Mulla (16ET23)
    In this project, we are designing a low- profile micro strip patch antenna for next generation 5G devices. The proposed antenna consists of four antennas, it operating at 3300-3600 MHz and 4800- 5000Mhz the antenna designed in this letter are different from traditional 5G antenna. It can be applied to the popular full screen mobile phone. In order to meet the modern 5G wireless communication system. Study of the 5G Smartphone antenna has greater application value. With the development of mobile 4G communication system, peoples’ requirements for the speed of mobile communication are rapidly increase. The research and development of the fifth-generation antenna has been carried out. The antenna offers the possibility of high- speed data transmission. An 8 element PIFA based MIMO antenna system was proposed. it only covers a single 3.5 GHZ band and the minimum isolation between the various antenna element only 7.4db.
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    Microstrip patch antenna design for telemedicine application
    (AIKTC, 2018-05) Khadase, Rahul; Pathan, Rukhsar (15DET114); Shaikh, Mariya (15DET123); Sayyed, Asim (15DET117); Aaga, Faaz (14DET067)
    The study of microstrip patch antennas has made great progress in recent years. Com- pared with conventional antennas, microstrip patch antennas have more advantages and better prospects. They are lighter in weight, low volume, low cost, low pro le, smaller in dimension and ease of fabrication and conformity. Moreover, the microstrip patch an- tennas can provide dual and circular polarizations, dual-frequency operation, frequency agility, broad band-width, feedline exibility, beam scanning omnidirectional patterning. Telemedicine is the use of telecommunications technology as a medium to provide live, interactive audiovisual medical services for sites that are at a distance from the provider. Telemedicine and related healthcare technologies aim to provide e cient healthcare re- motely. The objective of this paper is to provide a better solution for telemedicine appli- cation. Various wireless technologies are used, but microstrip patch antenna is the best solution. In this paper microstrip patch antenna is designed. The design consists of mi- crostrip patch antenna. This antenna is simulated on High frequency structure simulation (HFSS).
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    Power generation using rectenna
    (AIKTC, 2021-05) Khadase, Rahul; Mohd, Mubeen (16DET95); Khan, Asad (16DET91); Alam, Mehrab (16DET73); Qureshi, Sameer (16DET114)
    With the rapid development of wireless system the demands of low-power electrical circuits, various research method often study the feasibility of installing these circuits by harvesting free energy in a power supply or using a dedicated RF source.
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    Scada based automation system
    (AIKTC, 2016-05) Khadase, Rahul; Hussain, Ron (12ET73); Dandoti, Saifuddin (13ET67); Lakha, Avesh (13ET69); Khan, Mohd. Uzair (12ET33)
    This project focuses on conversion of manually operated temperature & Load (Bulb) Controller system towards fully automated system by using Microcontroller and peripherals like RTD, ADC &Relay Circuit and monitor whole process on computer screen using SCADA software. Our prime concern is to demonstrate industrial automation of temperature monitoring & controlling and load controlling system using little hardware and more refined software details.
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    Web deployment over cloud using CI CD pipelined architecture
    (AIKTC, 2022-05) Khadase, Rahul; Shaikh, Nadeem Kursheed Alam (17ET32); Mohammad, Hasan Qadri (17ET36); Yusuf, Addewale (18DET); Shaikh, Arbaz Yusuf (18DET)
    Any business's initial requirement is web development. It doesn't matter if you operate a little or large business; it's been discovered that putting your business online is too complicated. Why? Because a strong "web deployment" is required for "web development." Because end users will not be using code directly, but rather a service that has been delivered. The service that might be employed must be tied to automation, and DevOps approaches are the best on the market. The phrase DevOps is a major breakthrough in the software industry. Another DevOps service that is all-encompassing is "cloud." People can create their own websites with WordPress and comparable software, but the tedious part comes when it comes to maintenance.