i-manager Publications

Designing of the Smart Patient Transportation System

Prashant V. Mane Deshmukh*

Department of Electronics, Jayawantrao Sawant College of Commerce and Science, Pune, India.

Periodicity:July - December'2019
DOI : https://doi.org/10.26634/jes.8.1.16662

Abstract

Nowadays, the lifestyle of human being is becoming smarter due to smart electronics equipments for personal as well as domestic applications. The medical field is also powered by the use of advanced technologies in hospitals. Ambulances play a significant role to transport patients from home to hospital or from one hospital to other hospital. At the time of transportation of the patients, ambulances face many critical situations like heavy traffic, traffic signals, bad road including condition potholes, etc. Moreover, the patient in the ambulance bears the roads conditions like up and down and the vibrations of ambulance. Considering such facts, it is proposed to design the smart stretcher. The aim of present research work was to reduce the effect of potholes on roads, road structure and vibrations of ambulance on a patient traveling on a stretcher in a typical ambulance. Vibrations are sensed by a smart sensor and the electronic system is designed to adjust stretcher stand smoothly, hence the effect of potholes on roads, vibrations of ambulances are removed and it becomes easy for healthcare team to transport the patient. The electronic system consist of signal processing and actuators. The signal processing unit processed the sensed data from signal and according to that the output signal is produced to actuator. On implementation of the system, it is observed that the proposed system works satisfactorily.

Keywords

Embedded System, Smart Stretcher, Patient, Healthcare, Ambulances, etc.

How to Cite this Article?

Deshmukh, P. V. M. (2019). Designing of the Smart Patient Transportation System. i-manager's Journal on Embedded Systems, 8(1), 24-30. https://doi.org/10.26634/jes.8.1.16662

References

[1]. Analog Devices. (2009). Digital Accelerometer. Retrieved from https://www.sparkfun.com/datasheets/ Sensors/Accelerometer/ADXL345.pdf

[2]. Arunkumar, S. M., Abhijith, P. K., Karoshi, H. A., & Chetan, C. (2017). Design and fabrication of stretcher cum wheelchair. International Journal of Latest Engineering Research and Applications, 2(5), 90-96.

[3]. Baltes, J., McGrath, S., & Anderson, J. (2004, December). Active balancing using gyroscopes for a nd small humanoid robot. In 2 International Conference On Autonomous Robots and Agents (pp. 470-475).

[4]. Beri, G., Ganjare, P., Gate, A., Channawar, A., & Gaikwad, V. (2016). Intelligent ambulance with traffic control. International Journal of Electronics and Computer Systems, 4(2), 43-46.

[5]. Deshmukh, P. V. M., Adat, D. M., Ladgaonakar, B. P. & Tilekar, S. K. (2018). Monitoring and control of gas leakages of industrial sector using PIC 18F4550, zigbee and wireless sensor actuator network. i-manager's Journal on Electronics Engineering, 8(3), 5-13. https://doi.org/10. 26634/jele.8.3.14387

[6]. Devika, M. D. (2016) Intelligent traffic management for ambulance and VIP vehicles. International Journal of Innovative Research in Science Engineering and Technology, 5(8), 15041-15046.

[7]. Duran, A., Öztürk, H., Tekelioğlu, Ü. Y., Ocak, T., & Emet, M. (2013). The effect of stretcher type on safety and ease of treatment in an emergency department. Turkish Journal of Medical Sciences, 43(6), 986-989. https://doi. org/10 .3906/sag-1210-51

[8]. Hirudkar, A., Bhusari, C., Khedkar, A., Parekar, A., & Daf, S. P. (2017). Automatic stretcher cum wheelchair. International Research Journal of Engineering and Technology (IRJET), 4(3), 1659- 1663.

[9]. Iyyappan, M. S., & Nandagopal, M. V. (2013). Automatic accident detection and ambulance rescue with intelligent traffic light system. International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering, 2(4), 1319-1325.

[10]. Kapoor, S., Gupta, P., Sharma, P., & Singh, P. N. (2017). Intelligent ambulance with automatic traffic control. International Research Journal of Engineering and Technology (IRJET), 4, 1264-1266.

[11]. Lekshmy, S., Georg, A., & Athira, C. V. (2015), Self balancing robot. International Journal of Computer Engineering In Research Trends, 2(12), 1091-1095.

[12]. Mane-Deshmukh, P. V. & Ladgaonkar, B. P. (2017). Design and Implementation of PIC microcontroller based mote for wireless sensor network, for industrial applications (Doctoral dissertation), Solapur University. Retrieved Ffrom https://hdl.handle.net/10603/204794

[13]. Mane-Deshmukh, P. V. (2018). Designing of wireless sensor network to protect agricultural farm from wild animals. i-manager's Journal on Information Technology, 7(4), 30-36. https://doi.org/10.26634/jit.7.4.14505

[14]. Mane-Deshmukh, P. V., Ladgaonkar, B. P., Pathan, S. C., & Shaikh, S. S. (2013). Microcontroller PIC18f4550 based wireless sensor node to monitor industrial environmental parameters. International Journal of Advanced Research in Computer Science and Software Engineering, 3(10), 943-950.

[15]. Menon, V. A. (2018). Product development approach for a stabilized ambulance stretcher (Doctoral dissertation). Retrieved from https://recipp.ipp. pt/bitstream/10400.22/14247/1/DM_VijayendraMenon _2018_ ME M.pdf

[16]. Microchip. (2006). Datasheet of PIC microcontroller. Retrieved from https://ww1.microchip.com/downloads/e n /devicedoc/39632c.pdf

[17]. Nellore, K., & Hancke, G. P. (2016). Traffic management for emergency vehicle priority based on visual sensing. Sensors, 16(11), 1-22. https://doi.org/1 0.3390/s16111892

[18]. Pashazadeh, S., & Saeedvand, S. (2014). Modelling of walking humanoid robot with capability of floor detection and dynamic balancing using colored petri net. International Journal in Foundations of Computer Science & Technology (IJFCST), 4(2), 1-10.

[19]. Priyanka, P., Sharmila, V., Sindhu, V. C., & Sangeetha, P. (2016). Intelligent traffic control system for ambulance clearance and stolen vehicle detection. International Journal of Research and Engineering, 3 (3), 13-17.

[20]. Reddy, D. S., & Khare V., (2017). A smart ambulance system. International Journal of Innovative Technologies , 5(2), 0224-0227.

[21]. Saradha, B. J., Vijayshri, G., & Subha, T. (2017, February). Intelligent traffic signal control system for ambulance using RFID and cloud. In 2017 2nd International Conference on Computing and Communications Technologies (ICCCT) (pp. 90-96). IEEE. https://doi.org/10.1109/ICCCT2.2017.7972255

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Designing of the Smart Patient Transportation System

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