ISSN Approved Journal No: 2320-2882 | Impact factor: 7.97 | ESTD Year: 2013
Scholarly open access journals, Peer-reviewed, and Refereed Journals, Impact factor 7.97 (Calculate by google scholar and Semantic Scholar | AI-Powered Research Tool) , Multidisciplinary, Monthly, Indexing in all major database & Metadata, Citation Generator, Digital Object Identifier(DOI)
IJCRT Journal front page | IJCRT Journal Back Page |
Paper Title: HUMAN RESOURCE MANAGEMENT IN INDIAN HOSPITALS: A SYSTEMATIC REVIEW
Author Name(s): Dr. Dhananjay Mankar
Published Paper ID: - IJCRT1801001
Register Paper ID - 171181
Publisher Journal Name: IJPUBLICATION, IJCRT
DOI Member ID: 10.6084/m9.doi.one.IJCRT1801001 and DOI :
Author Country : Indian Author, 400088, India , Deonar, India , | Research Area: Medical Science Published Paper URL: http://ijcrt.org/viewfull.php?&p_id=IJCRT1801001 Published Paper PDF: download.php?file=IJCRT1801001 Published Paper PDF: http://www.ijcrt.org/papers/IJCRT1801001.pdf
Title: HUMAN RESOURCE MANAGEMENT IN INDIAN HOSPITALS: A SYSTEMATIC REVIEW
DOI (Digital Object Identifier) :
Pubished in Volume: 6 | Issue: 1 | Year: January 2018
Publisher Name : IJCRT | www.ijcrt.org | ISSN : 2320-2882
Subject Area: Medical Science
Author type: Indian Author
Pubished in Volume: 6
Issue: 1
Pages: 1-13
Year: January 2018
Downloads: 1192
E-ISSN Number: 2320-2882
Mumbai has long been considered as one of India’s most prominent and international cities. Some experts project that in the next coming years, Mumbai will be the largest developing city in the world. The city and country have made great strides in improving infrastructure and quality of life and one area that also has seen and needs continued improvement is in its healthcare facilities. There have been an increasing number of private hospitals and clinics emerging as the city’s public facilities can greatly vary in quality and standards. Many of the public clinics and hospitals do not meet international standards. In this review study the discussion is focused on Hospitals and its approach to human resources in India in relation to Mumbai city; Hospital as a Service organization and role of Hospital in health care market. This research writing identifies the current health care scenario of Mumbai city. It also justifies the role and importance of SHRM practices; HPWP’s in the hospitals to enhance its organizational performance.
Licence: creative commons attribution 4.0
Human resource management, Hospital, Mumbai, Healthcare
Paper Title: WIRELESS TRANSMISSION OF POWER USING EMBEDDED SYSTEM
Author Name(s): Anshuman Bhuyan, Santosh Jena, Sangram Bal
Published Paper ID: - IJCRT1705470
Register Paper ID - 181811
Publisher Journal Name: IJPUBLICATION, IJCRT
DOI Member ID: 10.6084/m9.doi.one.IJCRT1705470 and DOI :
Author Country : Indian Author, -, - , -, - , | Research Area: Science & Technology Published Paper URL: http://ijcrt.org/viewfull.php?&p_id=IJCRT1705470 Published Paper PDF: download.php?file=IJCRT1705470 Published Paper PDF: http://www.ijcrt.org/papers/IJCRT1705470.pdf
Title: WIRELESS TRANSMISSION OF POWER USING EMBEDDED SYSTEM
DOI (Digital Object Identifier) :
Pubished in Volume: 6 | Issue: 1 | Year: February 2018
Publisher Name : IJCRT | www.ijcrt.org | ISSN : 2320-2882
Subject Area: Science & Technology
Author type: Indian Author
Pubished in Volume: 6
Issue: 1
Pages: 78-83
Year: February 2018
Downloads: 1207
E-ISSN Number: 2320-2882
Now a days in our daily life every where we are using embedded systems. For this embedded systems we have to provide the power supply to work. That power supply we are providing by using wires. Due to this complexity and cost of the embedded systems is increasing in order to reducing this we are going for wireless power transmission to the embedded systems. This paper gives an effective, high performance technique which can efficiently transmit the power to our embedded systems without using wires. This way of transmission does not affect the environment surroundings. This technique includes resonating inductive coupling in sustainable moderate range and transfer of power through microwaves using rectennas. With this we can avoid the confusion and danger of having long, hazardous and tangled wiring.
Licence: creative commons attribution 4.0
Resonance, Induction, Non Radiative Energ, Transfer, Rectenna
Paper Title: WIRELESS SOLAR POWER MONITORING USING EMBEDDED SYSTEM
Author Name(s): Durga Prasanna Mohanty, Gopinath Das
Published Paper ID: - IJCRT1705469
Register Paper ID - 181810
Publisher Journal Name: IJPUBLICATION, IJCRT
DOI Member ID: 10.6084/m9.doi.one.IJCRT1705469 and DOI :
Author Country : Indian Author, -, - , --, - , | Research Area: Science & Technology Published Paper URL: http://ijcrt.org/viewfull.php?&p_id=IJCRT1705469 Published Paper PDF: download.php?file=IJCRT1705469 Published Paper PDF: http://www.ijcrt.org/papers/IJCRT1705469.pdf
Title: WIRELESS SOLAR POWER MONITORING USING EMBEDDED SYSTEM
DOI (Digital Object Identifier) :
Pubished in Volume: 6 | Issue: 1 | Year: February 2018
Publisher Name : IJCRT | www.ijcrt.org | ISSN : 2320-2882
Subject Area: Science & Technology
Author type: Indian Author
Pubished in Volume: 6
Issue: 1
Pages: 75-77
Year: February 2018
Downloads: 1166
E-ISSN Number: 2320-2882
To improve the utilization of solar power energy resources, Solar Power monitoring system is important. In this paper we discussed Data monitoring in solar power system is performed by combination of processor chip of ARM 7 family and GPRS wireless Communication. The ARM 7 processor LPC2148 is used for data automatic analysis, processing, displaying and saving automatically whereas GPRS wireless communication device is responsible for real time data transmission to the monitoring center. This system monitors the ambient temperature around solar power generation equipments, the Backplane temperature, and Humidity, solar irradiation, generated Current & Voltage. Here the system not only made the data transmission to the monitoring center in real time & effectively but also realize the unmanned watching.
Licence: creative commons attribution 4.0
Data monitoring system; ARM 7; GPRS
Paper Title: SECURITY SYSTEM IN AUTOMOBILE VEHICLES USING ARDUINO
Author Name(s): Dr. Kailash Mohapatra, Subhashree Pothal, Manas Ranjan Das, Asish Tripathy
Published Paper ID: - IJCRT1705468
Register Paper ID - 181809
Publisher Journal Name: IJPUBLICATION, IJCRT
DOI Member ID: 10.6084/m9.doi.one.IJCRT1705468 and DOI :
Author Country : Indian Author, -, - , -, - , | Research Area: Science & Technology Published Paper URL: http://ijcrt.org/viewfull.php?&p_id=IJCRT1705468 Published Paper PDF: download.php?file=IJCRT1705468 Published Paper PDF: http://www.ijcrt.org/papers/IJCRT1705468.pdf
Title: SECURITY SYSTEM IN AUTOMOBILE VEHICLES USING ARDUINO
DOI (Digital Object Identifier) :
Pubished in Volume: 6 | Issue: 1 | Year: February 2018
Publisher Name : IJCRT | www.ijcrt.org | ISSN : 2320-2882
Subject Area: Science & Technology
Author type: Indian Author
Pubished in Volume: 6
Issue: 1
Pages: 71-74
Year: February 2018
Downloads: 1153
E-ISSN Number: 2320-2882
Licence: creative commons attribution 4.0
gps, gsm, arduino, sms, a.o.c.s
Paper Title: PROFESSIONAL INSTITUTION AUTOMATION AND SECURITY SYSTEM USING ARDUINO
Author Name(s): Dr.Bimal Sarangi , Ramesh Chandra Choudhury
Published Paper ID: - IJCRT1705467
Register Paper ID - 181808
Publisher Journal Name: IJPUBLICATION, IJCRT
DOI Member ID: 10.6084/m9.doi.one.IJCRT1705467 and DOI :
Author Country : Indian Author, -, - , -, - , | Research Area: Science & Technology Published Paper URL: http://ijcrt.org/viewfull.php?&p_id=IJCRT1705467 Published Paper PDF: download.php?file=IJCRT1705467 Published Paper PDF: http://www.ijcrt.org/papers/IJCRT1705467.pdf
Title: PROFESSIONAL INSTITUTION AUTOMATION AND SECURITY SYSTEM USING ARDUINO
DOI (Digital Object Identifier) :
Pubished in Volume: 6 | Issue: 1 | Year: February 2018
Publisher Name : IJCRT | www.ijcrt.org | ISSN : 2320-2882
Subject Area: Science & Technology
Author type: Indian Author
Pubished in Volume: 6
Issue: 1
Pages: 68-70
Year: February 2018
Downloads: 1129
E-ISSN Number: 2320-2882
Professional Institution are running through number of laboratories, class rooms , offices, residential areas, street and open spaces, transformers, cooling towers, etc. . Sometimes due to inadequate security systems and lack of skill persons ,more number of manpower is required to control the distribution of electrical systems, closing and opening the doors and windows, cleaning of each in time ,doing preventive maintenance at regular intervals etc. , which causes maximum power loss, accidents due to short circuits and other related issues. This paper put forwards the design of automation for Professional colleges and security system for electrical equipments using Arduino. The hardware interface and the software communication with the Arduino microcontroller functioning as a micro web server and the interface for all the hardware modules. All communication and controls in this system pass through the microcontroller to the electronic device used to achieve the switching on and off action. The mobile or intra net connection has been found to be control the total system effectively for regulating the total electrical system, system affected through sudden fire, unwanted sound etc. of the organization through Arduino.
Licence: creative commons attribution 4.0
Arduino, Microcontroller, technical hazards
Paper Title: OPEN CIRCUIT & SHORT CIRCUIT CABLE FAULT DETECTION USING ARDUINO
Author Name(s): Saurabh Kumar, Kumari Shradha
Published Paper ID: - IJCRT1705466
Register Paper ID - 181807
Publisher Journal Name: IJPUBLICATION, IJCRT
DOI Member ID: 10.6084/m9.doi.one.IJCRT1705466 and DOI :
Author Country : Indian Author, -, - , -, - , | Research Area: Science & Technology Published Paper URL: http://ijcrt.org/viewfull.php?&p_id=IJCRT1705466 Published Paper PDF: download.php?file=IJCRT1705466 Published Paper PDF: http://www.ijcrt.org/papers/IJCRT1705466.pdf
Title: OPEN CIRCUIT & SHORT CIRCUIT CABLE FAULT DETECTION USING ARDUINO
DOI (Digital Object Identifier) :
Pubished in Volume: 6 | Issue: 1 | Year: February 2018
Publisher Name : IJCRT | www.ijcrt.org | ISSN : 2320-2882
Subject Area: Science & Technology
Author type: Indian Author
Pubished in Volume: 6
Issue: 1
Pages: 60-67
Year: February 2018
Downloads: 1394
E-ISSN Number: 2320-2882
Licence: creative commons attribution 4.0
Underground cable, fault location, arduino, LCD, USB.
Paper Title: INTERFACING OF MATLAB WITH ARDUINO FOR HUMAN FACE RECOGNITION ALGORITHM IMPLEMENTATION USING SERIAL COMMUNICATION
Author Name(s): Jnana Ranjan Behera
Published Paper ID: - IJCRT1705465
Register Paper ID - 181806
Publisher Journal Name: IJPUBLICATION, IJCRT
DOI Member ID: 10.6084/m9.doi.one.IJCRT1705465 and DOI :
Author Country : Indian Author, -, - , -, - , | Research Area: Science & Technology Published Paper URL: http://ijcrt.org/viewfull.php?&p_id=IJCRT1705465 Published Paper PDF: download.php?file=IJCRT1705465 Published Paper PDF: http://www.ijcrt.org/papers/IJCRT1705465.pdf
Title: INTERFACING OF MATLAB WITH ARDUINO FOR HUMAN FACE RECOGNITION ALGORITHM IMPLEMENTATION USING SERIAL COMMUNICATION
DOI (Digital Object Identifier) :
Pubished in Volume: 6 | Issue: 1 | Year: February 2018
Publisher Name : IJCRT | www.ijcrt.org | ISSN : 2320-2882
Subject Area: Science & Technology
Author type: Indian Author
Pubished in Volume: 6
Issue: 1
Pages: 54-59
Year: February 2018
Downloads: 1152
E-ISSN Number: 2320-2882
This paper described proposed algorithm for face recognition using image processing and manipulation of the output pin state of Arduino board with ATmega328P controller by tracking the face of a human. The face recognition algorithm has been developed on MATLAB platform by the combination of several image processing algorithms. Using the theory of Image Acquisition and Fundamentals of Digital Image Processing, the face of a user has been detected in real time. By using Face Recognition and Serial data communication, the state of Arduino board pin has been controlled. MATLAB programming develops a computer vision system in the real time for face detection and tracking using camera as image acquisition hardware. Arduino programming provides an interfacing of a hardware prototype with control signals generated by real time face detection and tracking.
Licence: creative commons attribution 4.0
MATLAB, Digital Image processing, Arduino board, , serial data communication ,Thresholding .
Paper Title: HOME SECURITY SYSTEM WITH AUTOCALL FACILITY USING ARDUINO
Author Name(s): Sreelekha Panda
Published Paper ID: - IJCRT1705464
Register Paper ID - 181805
Publisher Journal Name: IJPUBLICATION, IJCRT
DOI Member ID: 10.6084/m9.doi.one.IJCRT1705464 and DOI :
Author Country : Indian Author, -, - , -, - , | Research Area: Science & Technology Published Paper URL: http://ijcrt.org/viewfull.php?&p_id=IJCRT1705464 Published Paper PDF: download.php?file=IJCRT1705464 Published Paper PDF: http://www.ijcrt.org/papers/IJCRT1705464.pdf
Title: HOME SECURITY SYSTEM WITH AUTOCALL FACILITY USING ARDUINO
DOI (Digital Object Identifier) :
Pubished in Volume: 6 | Issue: 1 | Year: February 2018
Publisher Name : IJCRT | www.ijcrt.org | ISSN : 2320-2882
Subject Area: Science & Technology
Author type: Indian Author
Pubished in Volume: 6
Issue: 1
Pages: 50-53
Year: February 2018
Downloads: 1189
E-ISSN Number: 2320-2882
The requirement for security alarm systems in home is a serious demand now a days. As the number of crimes are increasing every day, there has to be something that will keep us safe. We are all aware of the high end security systems present in the market but they are not easily available to everyone. We therefore intend to provide a solution by constructing a cost efficient electronic system that has the capability of sensing the motion of the intruders and setting off the alarm. The basic idea behind this project is that all the bodies generate some heat energy in the form of infrared which is invisible to human eyes. But, it can be detected by electronic motion sensor. The Concept involves the use of Arduino, GSM-900, motion sensor, buzzer, LCD display and a simple program. The sensor detects any motion in its permissible range and triggers the alarm. It will also send the signal to Arduino which processes the signal and set off the alarm along with message and call to the house owner through GSM-900. With this system we can easily set up a security alarm in our home for unwanted intruders.
Licence: creative commons attribution 4.0
Motion Sensor, Arduino, GSM-900, Heat energy, Infrared, unwanted Intruders
Paper Title: HOME AUTOMATION SYSTEM USING ARDUINO
Author Name(s): Smruti Ranjan Panda , Ritumbara Mallick
Published Paper ID: - IJCRT1705463
Register Paper ID - 181804
Publisher Journal Name: IJPUBLICATION, IJCRT
DOI Member ID: 10.6084/m9.doi.one.IJCRT1705463 and DOI :
Author Country : Indian Author, -, - , -, - , | Research Area: Science & Technology Published Paper URL: http://ijcrt.org/viewfull.php?&p_id=IJCRT1705463 Published Paper PDF: download.php?file=IJCRT1705463 Published Paper PDF: http://www.ijcrt.org/papers/IJCRT1705463.pdf
Title: HOME AUTOMATION SYSTEM USING ARDUINO
DOI (Digital Object Identifier) :
Pubished in Volume: 6 | Issue: 1 | Year: February 2018
Publisher Name : IJCRT | www.ijcrt.org | ISSN : 2320-2882
Subject Area: Science & Technology
Author type: Indian Author
Pubished in Volume: 6
Issue: 1
Pages: 47-49
Year: February 2018
Downloads: 1176
E-ISSN Number: 2320-2882
The idea of conversing electricity means that used whenever necessary and avoid wasting it. This means doing simple things like turning OFF lights when any person left the room, etc. One of the biggest motivation for the people is conserving electricity in their homes which is the accumulated savings in their energy bills at the end of the year. So there is a need to conserve the electricity. The main objective of this paper is to control the fan and light using bluetooth module via Arduino. Now a days most of energies are wasted due to the unplug of fans and lights when it is not in use. This is happened because most of the switches are located far away from the users. In order to avoid this situation, we have proposed a low-cost system using Bluetooth which help users to controls the fans and lights within certain distance from them.
Licence: creative commons attribution 4.0
Arduino UNO, Bluetooth, Ardudroid Software
Paper Title: FAULT LOCATION CALCULATION IN UG CABLE USING ARDUINO
Author Name(s): Pradyumna Mallick, Shuvalaxmi Nayak,
Published Paper ID: - IJCRT1705462
Register Paper ID - 181803
Publisher Journal Name: IJPUBLICATION, IJCRT
DOI Member ID: 10.6084/m9.doi.one.IJCRT1705462 and DOI :
Author Country : Indian Author, -, - , -, - , | Research Area: Science & Technology Published Paper URL: http://ijcrt.org/viewfull.php?&p_id=IJCRT1705462 Published Paper PDF: download.php?file=IJCRT1705462 Published Paper PDF: http://www.ijcrt.org/papers/IJCRT1705462.pdf
Title: FAULT LOCATION CALCULATION IN UG CABLE USING ARDUINO
DOI (Digital Object Identifier) :
Pubished in Volume: 6 | Issue: 1 | Year: February 2018
Publisher Name : IJCRT | www.ijcrt.org | ISSN : 2320-2882
Subject Area: Science & Technology
Author type: Indian Author
Pubished in Volume: 6
Issue: 1
Pages: 43-46
Year: February 2018
Downloads: 1238
E-ISSN Number: 2320-2882
This paper is intended to detect the location of fault in underground cable lines from the sub station to exact location using an Arduino board. In the town areas, the electrical cable runs in undergrounds instead of overhead lines. Whenever the fault occurs in underground cable it is difficult to identify the exact location of the fault for process of repairing that particular cable. The proposed system finds the actual location of the fault. This system uses an Arduino microcontroller board and a rectified power supply. Here the current sensing circuits made with a combination of resistors are interfaced to Arduino micro controller board to help of the internal ADC device for providing digital data to the microcontroller representing the cable length in kilometers. The fault creation is made by the set of switches. The relays are controlled by the relay driver. A 16x2 LCD display connected to the microcontroller to display the information. In case of short circuit the voltage across series resistors changes accordingly, which is then fed to an ADC to develop precise digital data to a programmed Arduino micro controller board that further displays exact fault location from base station in kilometers. Whenever a fault occurs in a cable the buzzer produce the alarm to alert and to take an immediate action by field workers.
Licence: creative commons attribution 4.0
Arduino,ADC, UNO board, PSpice