Dr . AMBEDKAR INSTITUTE OF TECHNOLOGY
(An Autonomous Institution, Affiliated to V.T.U)
BANGALORE-560 056
WIRELESS INDUSTRI...
OVERVIEW
Objectives
Abstract
Existing system
Proposed system
Module descriptions
Hardware and software requirements
...
OBJECTIVES
 The main objective of this project to build a cost effective and
efficient wireless robotic system for indust...
ABSTRACT
In any industry, a large fraction of the work is repetitive and
judicious application of automation will most cer...
EXISTING SYSTEMS
Designed and developed an intelligence robot to detect
dangerous Gas/Smoke by using an 8 bit microcontro...
PROPOSED SYSTEM
 This system is made more useful by migrating from 8bit to 32-bit
ARM 7 microcontroller.
 We are using s...
BLOCK DIAGRAM
SMOKE/GAS
DETECTOR
ARM
LPC2148FIRE
DETECTOR
CAMERA
C3038
TEMPERATURE
SENSOR
GSM
SIM 300
ARM
MOVEMENT
ZIGBEE
...
REMOTE PC
ZIGBEE
CC2500
PC
RF RECEIVER
8051
MICROCONTROLLER
ALARM
SWITCH BOARD
Fig 2 :BLOCK DIAGRAM SHOWING ZIGBEE INTERFA...
HARDWARE DESCRIPTIONS
 ARM 7 MICRO CONTROLLER(LPC2148)
 8051 MICRO CONTROLLER.
 CAMERA(C3038)
 CC2500 XBEE(ZIGBEE MODU...
SOFTWARE DETAILS
Keil IDE
 The Keil MDK-ARM Microcontroller Kit is a complete
software development environment for the w...
IMPLEMENTATION
A RF camera is used to give a live video stream to a remote
user.
A ZIGBEE transceiver is used for wirele...
INTERFACING GSM TO LPC2148
GSM modem interfacing with microcontroller for
SMS control of industrial equipment. The sending...
AT+CMGF=1
OK
AT+CMGS="7789952010"
> FIRE ACCIDENT <Ctrl>+<Z>
+CMGS: 44
OK
The following commands change the message format...
Ultrasonic Ranging Module HC - SR04
Ultrasonic ranging module HC - SR04 provides 2cm - 400cm
non-contact measurement funct...
(4) We can calculate the range through the time
interval between sending trigger signal and receiving
echo signal.
Formula...
FIRE SENSOR(IR SENSOR)
• The Fire sensor is used to detect fire flames.
• The module makes use of Fire sensor and comparat...
• In MQ-5 gas sensors the sensing material is a metal oxide(SnO2).
Measuring electrode and heater are fixed into a crust m...
PICK AND PLACE ARM
• This is a wireless remote-controlled robotic arm with five
degrees of freedom, 100g lifting capacity,...
RF A/V CAMERA
Fig 9 : RF camera and RF A/V receiver
• RF camera with inbuilt transmitter installed on the robot
is used to...
EXPECTED OUTCOMES
The sensors are continuously sensing the surrounding
parameters, if any parameters exceeds the set poin...
SONAR interface
SONAR output
Fire sensor output
Obstacle detector output
Hardware interfacing
HARDWARE SNAPS
ADVANTAGES
• Consistency of performance.
• 24/7 continuous working.
• Reduced amount of operator errors.
• It can move fro...
DISADVANTAGES
• High standard of maintenance required
• Precise programming needed (time, training, specialist
knowledge)
...
APPLICATIONS
 Paper industries.
 Cotton industries.
 Chemical industries.
 PCB manufacturing units.
 Textile industri...
FUTURE SCOPE
• Robot can be controlled through voice recognition
mechanism.
• We can make this security robot to be moved ...
CONCLUSION AND DISCUSSIONS
• In our project, the robot is designed to move by our command and
also by it own according to ...
REFERENCES
• ADVANCED EMBEDDED WIRELESS ROBOT WITH MOTION DETECTION SYSTEM AND LIVE VIDEO /
AUDIO TRANSMISSION by MA.WAJEE...
Wireless ai based intelli industrial security robot 2 ppt
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Wireless ai based intelli industrial security robot 2 ppt

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Wireless ai based intelli industrial security robot 2 ppt

  1. 1. Dr . AMBEDKAR INSTITUTE OF TECHNOLOGY (An Autonomous Institution, Affiliated to V.T.U) BANGALORE-560 056 WIRELESS INDUSTRIAL SECURITY INTELLIGENT ROBOT Submitted by: SRINATH B R 1DA10TE013 VARUN B P 1DA10TE012 KARTHIK M 1DA10TE026 SHIVAKUMAR M 1DA10TE049 Under the guidance of: Dr. B SIVAKUMAR Professor and HOD Dept. of TCE Dr. AIT, Bangalore-56 Project phase II (TEP 85) VIII SEMESTER
  2. 2. OVERVIEW Objectives Abstract Existing system Proposed system Module descriptions Hardware and software requirements Expected outcomes Advantages and Disadvantages Applications Conclusion and Discussions References
  3. 3. OBJECTIVES  The main objective of this project to build a cost effective and efficient wireless robotic system for industrial application with wireless live video streaming. To provide a platform for Many industrial applications that require inspections and surveillance in hard-to-reach and hazardous areas , thus acting as a substitute for human in hazardous environment. The other important objectives that are associated in installing of robotic systems in industries are; 1) Saving of manpower. 2) Improved quality & efficiency. 3) Ability to work in any hostile environment. To detect unexpected dangerous events like fire accident, GAS leakage, High temperature etc…
  4. 4. ABSTRACT In any industry, a large fraction of the work is repetitive and judicious application of automation will most certainly result in optimum utilization of machine and manpower. Here our ROBOT plays a vital dual role. . They are mainly used to perform ‘pick and place’ actions and also this Intelligence robot is developed to detect dangerous Gas/Smoke, fire, temp., humidity by using some sensors interfaced to an 32 bit microcontroller. In our project the robot is designed to work automatically as per the command given by the program... Ex. If particular Smoke is detected, robot will switch ON the Alarm Unit and send an alert message. The Robot will send the real time video streaming , which could be seen at remote monitor and control action can be taken accordingly to control the robot are using high range ZIGBEE remote control.
  5. 5. EXISTING SYSTEMS Designed and developed an intelligence robot to detect dangerous Gas/Smoke by using an 8 bit microcontroller. To move in all the direction like forward, reverse, right and left as per the command given by the controller. Communication between robot and PC is bidirectional communication, which takes place by RF modem with 9600 bps.  If any gas/smoke detected, robot will switch ON the Alarm Unit. The video and audio are monitored at the remote PC. For transmitting video, RF camera has been used.
  6. 6. PROPOSED SYSTEM  This system is made more useful by migrating from 8bit to 32-bit ARM 7 microcontroller.  We are using some additional sensors like temperature sensor, humidity sensor and fire detector along with the GAS/Smoke detector.  We are using SONAR to avoid collision with obstacle  This robot has a Mechanical arm using for PICK and PLACE objects.  The high range ZIGBEE transceivers are used.  A GSM modem is used send alert SMS.
  7. 7. BLOCK DIAGRAM SMOKE/GAS DETECTOR ARM LPC2148FIRE DETECTOR CAMERA C3038 TEMPERATURE SENSOR GSM SIM 300 ARM MOVEMENT ZIGBEE CC2500 HUMIDITY SENSOR WIRELESS ROBOT SONAR Fig 1: BLOCK DIAGRAM SHOWING INTERFACING OF DIFFERENT HARDWARES
  8. 8. REMOTE PC ZIGBEE CC2500 PC RF RECEIVER 8051 MICROCONTROLLER ALARM SWITCH BOARD Fig 2 :BLOCK DIAGRAM SHOWING ZIGBEE INTERFACING WITH REMOTE PC
  9. 9. HARDWARE DESCRIPTIONS  ARM 7 MICRO CONTROLLER(LPC2148)  8051 MICRO CONTROLLER.  CAMERA(C3038)  CC2500 XBEE(ZIGBEE MODULE)  MECHANICAL ARM  DC MOTOR  MQ-2(SMOKE SENSOR)  FIRE SENSOR  TEMPERATURE SENSOR  ULTRA SONIC SONOR  HUMIDITY SENSOR  GSM MODULE
  10. 10. SOFTWARE DETAILS Keil IDE  The Keil MDK-ARM Microcontroller Kit is a complete software development environment for the wide range of ARM, Cortex-M, and Cortex-R based microcontroller devices. Flash magic  Flash magic is a PC tool for programming flash based microcontrollers from NXP using a serial or Ethernet protocol while in the target hardware.
  11. 11. IMPLEMENTATION A RF camera is used to give a live video stream to a remote user. A ZIGBEE transceiver is used for wireless communication. A mechanical ARM is used to pick and place objects. A temperature sensor is used to measure the temperature in that region. A smoke and fire sensor is used to detect any gas leakage or fire accidents by alerting. A Humidity sensor is used to check the humidity of the industrial environment Switch board interfaced with 8051 Micro contoller is used to control robot movements.
  12. 12. INTERFACING GSM TO LPC2148 GSM modem interfacing with microcontroller for SMS control of industrial equipment. The sending SMS through GSM modem when interfaced with microcontroller or PC is much simpler as compared with sending SMS Fig 3 : FIGURE SHOWING INTERFACING GSM MODULE WITH LPC2148
  13. 13. AT+CMGF=1 OK AT+CMGS="7789952010" > FIRE ACCIDENT <Ctrl>+<Z> +CMGS: 44 OK The following commands change the message format to text mode and send a text message. Fig 4 : SCREEN SHOTS OF HYPER TERMINAL WINDOW
  14. 14. Ultrasonic Ranging Module HC - SR04 Ultrasonic ranging module HC - SR04 provides 2cm - 400cm non-contact measurement function, the ranging accuracy can reach to 3mm. The modules includes ultrasonic transmitters, receiver and control circuit. The basic principle of work: (1) Using IO trigger for at least 10us high level signal, (2) The Module automatically sends eight 40 kHz and detect whether there is a pulse signal back. (3) IF the signal back, through high level , time of high output IO duration is the time from sending ultrasonic to returning. Test distance = (high level time×velocity of sound (340M/S) / 2, Fig 5 : SONAR
  15. 15. (4) We can calculate the range through the time interval between sending trigger signal and receiving echo signal. Formula: uS / 58 = centimeters or uS / 148 =inch; or: the range = high level time * velocity (340M/S) / 2; Fif 6 : TIMING DIAGRAM SHOWING SONIC BURSTS
  16. 16. FIRE SENSOR(IR SENSOR) • The Fire sensor is used to detect fire flames. • The module makes use of Fire sensor and comparator to detect up to a range of 1 meter. Infrared sensor (1.1 µm and higher) monitors especially the heat radiation of a fire. • A special frequency range is 4.3 to 4.4 µm. This is a resonance frequency of CO2. The hot CO2 emits much energy at its resonance frequency of 4.3 µm. During burning of a hydrocarbon (for example, wood or fossil fuels such as oil and natural gas) much heat and CO2 is released This causes a peak in the total radiation emission and can be well detected. Fig 7 : Fire sensor
  17. 17. • In MQ-5 gas sensors the sensing material is a metal oxide(SnO2). Measuring electrode and heater are fixed into a crust made by stainless steel net. • The SnO2 has lower conductivity in clean air, When the internal heating elements are activated, these gas sensors respond to their specific gas by reducing their resistance in proportion to the amount of that gas present in the air exposed to the internal element. • A simple electronic circuit is used here which is used to convert the changing conductivity into corresponding output signal of gas concentration. • MQ-5 is more sensitive towards LPG, Natural gas , Methane and Propane. It is a low cost sensor suitable for different application. SMOKE SENSOR(MQ-5) Fig 8: MQ-5 smoke sensor
  18. 18. PICK AND PLACE ARM • This is a wireless remote-controlled robotic arm with five degrees of freedom, 100g lifting capacity, and an LED light. • This uses five motors with gearboxes, the Edge has five degrees of freedom: a 120° wrist motion, a 300° elbow motion, a 180° shoulder motion, a 270° base motion, and a 0-1.77" (0-4.5cm) gripping motion. • When one of the gearboxes encounters excessive resistance to motion, the gearbox will make a noise that alerts you to stop the arm’s motion in that direction. • Illuminating whatever the gripper is holding, a white LED is mounted to the “hand” of the arm.
  19. 19. RF A/V CAMERA Fig 9 : RF camera and RF A/V receiver • RF camera with inbuilt transmitter installed on the robot is used to record and transmit the live video stream. • A RF A/V receiver is used to receive the video stream • Received video stream displayed on the PC monitor which is connected to the RF A/V receiver through TV tuner.
  20. 20. EXPECTED OUTCOMES The sensors are continuously sensing the surrounding parameters, if any parameters exceeds the set point alarm signal is sent to remote PC . The related SMS is sent to a mobile phone through GSM modem like, “HIGH GAS” , “FIRE ACCIDENT” etc. Distance between the obstacle and the robot is calculated using SONAR and the distance is displayed on the screen. Like “Front : distance in inches”. The velocity of the robot should automatically change as the distance of it from obstacle changes.
  21. 21. SONAR interface SONAR output Fire sensor output Obstacle detector output Hardware interfacing HARDWARE SNAPS
  22. 22. ADVANTAGES • Consistency of performance. • 24/7 continuous working. • Reduced amount of operator errors. • It can move from one location to another location. • Robotic workers never get tired. • Do not need to be paid. • Can be made to perform even the most dangerous tasks without concern.
  23. 23. DISADVANTAGES • High standard of maintenance required • Precise programming needed (time, training, specialist knowledge) • when computer systems failure will cause breakdown • New products require complete reprogramming • Certain processes still need a skilled operator • Complex and expensive equipment to buy and install
  24. 24. APPLICATIONS  Paper industries.  Cotton industries.  Chemical industries.  PCB manufacturing units.  Textile industries.  Furnace manufacturing units.  Oil refineries.
  25. 25. FUTURE SCOPE • Robot can be controlled through voice recognition mechanism. • We can make this security robot to be moved or directed Automatically. • We can enhance this security robot to do Authentication process.
  26. 26. CONCLUSION AND DISCUSSIONS • In our project, the robot is designed to move by our command and also by it own according to the command given by the program. • The video is monitored at the control unit. • In this prototype project, we design in such a way that this robot can be moved anywhere and it can get the information of particular place. • It is easy to detect any faults or dangerous in the industry. It leads easy process without interaction of human. • An alerting message will be sent to a prescribed SIM using GSM module. • This project is very much useful in the places where a human cannot go into the places like ground canals, smoke oriented caves and this project is very much useful in such situations.
  27. 27. REFERENCES • ADVANCED EMBEDDED WIRELESS ROBOT WITH MOTION DETECTION SYSTEM AND LIVE VIDEO / AUDIO TRANSMISSION by MA.WAJEED, K. VARUN KUMAR - International Journal of Communication Network Security, ISSN: 2231 – 1882, Volume-2, Issue-2, 2013. (base paper). • MOBILE ROBOT IN COAL MINE DISASTER SURVEILLANCE by Mr. Sabarish Chakkath , S.Hariharansiddharath , B.Hemalatha -IOSR Journal of Engineering (IOSRJEN) e-ISSN: 2250-3021, p- ISSN: 2278-8719, www.iosrjen.org Volume 2, Issue 10 (October 2012), PP 77-82. • WIRELESS SURVEILLANCE ROBOT WITH MOTION DETECTION AND LIVE VIDEO TRANSMISSION by A.Sivasoundari, S.Kalaimani, M.Balamurugan -International Journal of Emerging Science and Engineering (IJESE) ISSN: 2319–6378, Volume-I, Issue-6 April 2013. • DESIGN AND AUTOMATION OF SECURITY MANAGEMENT SYSTEM FOR INDUSTRIES BASED ON M2M TECHNOLOGY by Swathi Bhupatiraju, J V Subrahmanyeswara Rao -International Journal of Computer Engineering Science (IJCES) Volume 2 Issue 3 (March 2012) ISSN : 2250:3439. • AUTOMATED ADVANCED INDUSTRIAL and HOME SECURITY USING GSM and FPGA by N.Chinthaih,K.Rajshekar - International Journal of Computer Science and Information Technologies, Vol. 2 (4) , 2011, 1598-1602. • .DEVELOP A MULTIPLE INTERFACE BASED FIRE FIGHTING ROBOT by Ting L. Chien , Kuo Lan Su and Sheng Ven Shiau - IEEE International Conference on Robotics and Automation,, vol.3, pp.2084-2086.
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