Robotics - The Artificial Intelligence Machine Inventor Program

A Video Documentary about the Robotics Program

Fire Fighting Robot

Fire Fighting Robot


Rs. 5000

Rs. 500
(The registration fees will be reduced in the fees on your full fees payment)
Fire fighting is an important job but it is very dangerous occupation. Due to that, Robots are designed to find a fire, before it rages out of control. It could be used to work with fire fighters to reduce the risk of injury to victims. This paper presents the Fire Fighting Robot competition that purposely to simulate the real-world operation of an autonomous robot to rescue 10 victims (table tennis balls) and stop 5 fires (emergency candles) in a house within three minutes. The robot development is consisting of three elements which is the hardware, electronic, and programming. The robot has three DC motor, two for driving system and another single DC motor for ball suction subsystem and the fire blowing subsystem. Various sensors are also interfaced with PIC16F877A as a feedback to the robot such as photoelectric sensors, fiber optic sensor and RGB color sensors. LCD display also gives the graphical information of the robot status to the user. For the programming part, C language is used to determine the robot action gain from the sensors input.Fire fighting is an important job but it is very dangerous occupation. Due to that, Robots are designed to find a fire, before it rages out of control. It could be used to work with fire fighters to reduce the risk of injury to victims. This paper presents the Fire Fighting Robot competition that purposely to simulate the real-world operation of an autonomous robot to rescue 10 victims (table tennis balls) and stop 5 fires (emergency candles) in a house within three minutes. The robot development is consisting of three elements which is the hardware, electronic, and programming. The robot has three DC motor, two for driving system and another single DC motor for ball suction subsystem and the fire blowing subsystem. Various sensors are also interfaced with PIC16F877A as a feedback to the robot such as photoelectric sensors, fiber optic sensor and RGB color sensors. LCD display also gives the graphical information of the robot status to the user. For the programming part, C language is used to determine the robot action gain from the sensors input.Fire fighting is an important job but it is very dangerous occupation. Due to that, Robots are designed to find a fire, before it rages out of control. It could be used to work with fire fighters to reduce the risk of injury to victims. This paper presents the Fire Fighting Robot competition that purposely to simulate the real-world operation of an autonomous robot to rescue 10 victims (table tennis balls) and stop 5 fires (emergency candles) in a house within three minutes. The robot development is consisting of three elements which is the hardware, electronic, and programming. The robot has three DC motor, two for driving system and another single DC motor for ball suction subsystem and the fire blowing subsystem. Various sensors are also interfaced with PIC16F877A as a feedback to the robot such as photoelectric sensors, fiber optic sensor and RGB color sensors. LCD display also gives the graphical information of the robot status to the user. For the programming part, C language is used to determine the robot action gain from the sensors input.



Certificate of Excellance will be provided by SPARK - Research and Development organization.


Gusture Controlled Robot

Gusture Control Robot


Rs. 10000

Rs. 500
(The registration fees will be reduced in the fees on your full fees payment)
Gesture controlled robots also known as accelerometer controlled robots, are capable of taking commands from a user's hand gestures and actuate accordingly. Through this school robotics project-based course, your kid will learn to build his very own Gesture Controlled Robot that can be controlled via hand gestures with the help of an ADXL-335 accelerometer sensor.
To ease your kid's programming learning experience, the course is equipped with scratch based block programming modules that make programming the robot super easy. So you need not require any prior programming experience to help your kid to build this Gesture Controlled Robot.

The Gusture Control Robot cover's the following module (30 hour's):

  • What are Robots
  • Brain of Robots
  • Graphical Programming of Arduino
  • Sensor of Robots
  • How does a Robot Move
  • Build your Gusture Controlled Robot
  • Programming the Gesture Controlled Robot
  • Testing the Gusture Controlled Robot


  • Gusture controlled Robot certificate of Excellance will provided by SPARK - Research and Development organization.

    Edge Detection Robot

    Edge Detection Robot


    Rs. 3000

    Rs. 500
    (The registration fees will be reduced in the fees on your full fees payment)
    Edge detection robots also known as vision guided robots, are capable of detecting the edge/ corner of a platform and actuate accordingly. Through this school robotics project-based course, your kid will learn to build his/ her very own edge detection robot that uses digital IR sensor to detect the surroundings and move accordingly to avoid falling. To ease your kid's programming learning experience, the course is equipped with scratch based block programming modules that make programming the robot super easy. So you need not require any prior programming experience to help your kid to build this edge detection robot.

    The ED Robots cover's the following module (30 hour's):

  • What are Robots
  • Brain of Robots
  • Graphical Programming of Arduino
  • Sensor of Robots
  • How does a Robot Move
  • Build your Edge Detection Robot
  • Programming the Edge Detection Robot
  • Testing the Edge Detection Robot


  • Edge Detection Robot certificate of Excellance provided by SPARK - Research and Development organization.

  • Line Follower Robot

    Line Follower Robot


    Rs. 3000

    Rs. 500
    (The registration fees will be reduced in the fees on your full fees payment)
    Line follower robots also known as autonomous robots, are capable of detecting the path and actuate accordingly. Through this school robotics project-based course, your kid will learn to build his/ her very own line follower robot that uses digital IR sensor to detect the black line and move accordingly in the designated path. To ease your kid's programming learning experience, the course is equipped with scratch based block programming modules that make programming the robot super easy. So you need not require any prior programming experience to help your kid to build this line follower robot.

    The Line Follower Robot cover's the following module (30 hour's):



  • What are Robots
  • Brain of Robots
  • Graphical Programming of Arduino
  • Sensor of Robots
  • How does a Robot Move
  • Build your Line Follower Robot
  • Programming the Line Follower Robot
  • Testing the Line Follower Robot


  • Line Follower Robot certificate of Excellence provided by SPARK - Research and Development organization.


    Soccer Robot

    Soccer Robot


    Rs. 15000

    Rs. 500
    (The registration fees will be reduced in the fees on your full fees payment)
    If you love to make robots and see them rolling around your house, then you'll love this one too! This robot can play soccer by dribbling and kicking a ball, though not as good as Messi or Ronaldo. It is controlled using a smartphone with wireless bluetooth connection which enables you to make many of them and have a robot soccer match! 2 Robots will be construct for a match

    The Internship cover's the following module (40 hour's):

  • What are Robots
  • Brain of Robots
  • Graphical Programming of Arduino
  • Sensor of Robots
  • How does a Robot Move
  • Build your Soccer Robot
  • Programming the Soccer Robot
  • Testing the Soccer Robot


  • Soccer Robot certificate of Excellance provided by SPARK - Research and Development organization.


    Mobile Controlled Robot

    Mobile Controlled Robot


    Rs. 15000

    Rs. 500
    (The registration fees will be reduced in the fees on your full fees payment)
    A mobile robot is an unmanned system that operates in unstructured and dynamic environments, with or without the oversight of a human. Applications of mobile robots include: environmental monitoring; manufacturing logistics and production; search & rescue; construction; forestry management, agricultural monitoring and production; mining; marine measurement and monitoring; and aerospace operations. This course covers the fundamental principles of mobile robotics at an introductory level. The topics covered include: functional architecture of unmanned systems (electrical, mechanical and software); vehicle dynamics and modeling; common navigation sensors, state & disturbance estimation; lowlevel control; and trajectory generation. Laboratory exercises that use Matlab, Simulink and Ardupilot software to control unmanned vehicles will be given.

    The Mobile Controlled Robot cover's the following module (40 hour's):

  • What are Robots
  • Brain of Robots
  • Graphical Programming of Arduino
  • Sensor of Robots
  • How does a Robot Move
  • Build your Mobile controlled Robot
  • Programming the Mobile controlled Robot
  • Testing the Mobile controlled Robot


  • Mobile controlled Robot certificate of excellance provided by SPARK - Research and Development organization.


    Animatronic Hand

    Animatronic Hand


    Rs. 20000

    Rs. 500
    (The registration fees will be reduced in the fees on your full fees payment)

    The Animatronic Hand cover's the following module (50 hour's):

  • What are Robots
  • Brain of Robots
  • Graphical Programming of Arduino
  • Sensor of Animatronic Hand
  • How does a Animatronic Hand Move
  • Build your Animatronic Hand
  • Programming the Animatronic Hand
  • Testing the Animatronic Hand


  • Animatronic Hand certificate of Excellance provided by SPARK - Research and Development organization.


    Robotic Arm

    Robotic Arm


    Rs. 15000

    Rs. 500
    (The registration fees will be reduced in the fees on your full fees payment)

    The Robotic Arm cover's the following module (50 hour's):

  • What are Robots
  • Brain of Robots
  • Graphical Programming of Arduino
  • Sensor of Animatronic Hand
  • How does a Animatronic Hand Move
  • Build your Animatronic Hand
  • Programming the Animatronic Hand
  • Testing the Animatronic Hand


  • Internship certificate provided by SPARK - Research and Development organization.


    Biped Walking Robot

    Biped Walking Robot


    Rs. 20000

    Rs. 500
    (The registration fees will be reduced in the fees on your full fees payment)
    We have our well-structured course titled 'Engineering of flying objects for young minds' targeting students right from the 5th grade. The Program involves in the Basic Science done practically with the aircraft models, this levels helps the students to understand the basic science that they are going to learn till 10th. And some of the student finds the Engineering and Scientific Skill among them. And only they are move to the second level. Our syllabus will surely challenge and stimulate the young minds for future inventions and innovation.

    The Biped Walking Robot cover's the following module (50 hour's):

  • What are Robots
  • Brain of Robots
  • Graphical Programming of Arduino
  • Sensor of Biped Walking Robot
  • How does a Biped Walking Robot Move
  • Build your Biped Walking Robot
  • Programming the Biped Walking Robot
  • Testing the Biped Walking Robot


  • Biped Walking Robot certificate of excellance provided by SPARK - Research and Development organization.


    Hexapad Robot

    Hexapad Robot


    Rs. 20000

    Rs. 500
    (The registration fees will be reduced in the fees on your full fees payment)
  • What are Robots
  • Brain of Robots
  • Graphical Programming of Arduino
  • Sensor of Hexapad Robot
  • How does a Biped Hexapad Robot Move
  • Build your Biped Hexapad Robot
  • Programming the Hexapad Robot
  • Testing the Hexapad Robot


  • Hexapad Robot Certificate of Excellance provided by SPARK - Research and Development organization.


    OCTOCOPTER

    OCTOCOPTER


    Rs. 60000

    Rs. 500
    (The registration fees will be reduced in the fees on your full fees payment)
    Octocopters are small Octarian fighters equipped with a large propeller helmet that allows them to hover. They have small legs adorned with what appear to be helicopter landing skids, but they are never seen using them, as they are always in the air. Octocopters hover in one area until they see Agent 3, at which point they become visibly agitated and begin to move, with difficulty, towards the Inkling. They are capable of firing slow-moving balls of purple ink, like Octotroopers, and can be splatted easily from a close distance. However, firing ink at them from far away will slightly knock them backwards, possibly knocking them out of range.

    The Internship cover's the following module (60 hour's):

    DESIGN & FABRICATION

  • Copter Angle, Accurate Angle Separation, Geomentrical Dimensioning, Fabrication of Arm, Fabrication of Holder's, Fabrication of Landing gear.


  • STRUCTURE'S
  • Hooke's Law, Material selection for Arm, Material selection for Holders, Material selection for landing gear, Material selection for Vertical stabilizer, STRESS STRAIN GRAPH.


  • PROPULSION
  • Engine benchmark motor Selection, Fuel Benchmark Battery Selection, Electronic Speed controller selection, Propeller selection Rule, and Speed calculation.


  • CONTROL SYSTEM
  • Control Board Programing, Power system Separation, Primary control system, Control Methods, Selection of Transmitter & Receiver, Selection of Servo controls, Selection of Push rods, Selection of Arms and Hinges, FLYING OF RC PLANE - SIMULATION FOR STUDENTS.


  • Octocopter Internship certificate provided by SPARK - Research and Development organization.


    HEXACOPTER

    HEXACOPTER


    Rs. 50000

    Rs. 500
    (The registration fees will be reduced in the fees on your full fees payment)
    This project is a self-stabilizing hexacopter vehicle. The design of the hexacopter will have six rotors to provide stable lift even in highly variable environments (i.e. outdoors). Its main feature will be a camera mounted on the hexacopter which will be able to recognize a person and follow them at a specific distance. Key ideas of this project include synchronization, providing equal lift to all rotors and compensating for any external forces acting upon it. The hexacopter will be autonomous, it will be able to stabilize without any input from humans. The hexacopter will be able to be controlled by a phone connected via Bluetooth and we will provide an Android application that will send data to the hexacopter for control. The hexacopter will be able to locate a face and follow the person. As its name suggest, it will be a six-wing design.

    The Internship cover's the following module (60 hour's):

    DESIGN & FABRICATION

  • Copter Angle, Accurate Angle Separation, Geomentrical Dimensioning, Fabrication of Arm, Fabrication of Holder's, Fabrication of Landing gear.


  • STRUCTURE'S
  • Hooke's Law, Material selection for Arm, Material selection for Holders, Material selection for landing gear, Material selection for Vertical stabilizer, STRESS STRAIN GRAPH.


  • PROPULSION
  • Engine benchmark motor Selection, Fuel Benchmark Battery Selection, Electronic Speed controller selection, Propeller selection Rule, and Speed calculation.


  • CONTROL SYSTEM
  • Control Board Programing, Power system Separation, Primary control system, Control Methods, Selection of Transmitter & Receiver, Selection of Servo controls, Selection of Push rods, Selection of Arms and Hinges, FLYING OF RC PLANE - SIMULATION FOR STUDENTS.


  • Hexacopter Internship Certificate will be provided by SPARK - Research and Development organization.


    QUADCOPTER

    QUADCOPTER


    Rs. 40000

    Rs. 500
    (The registration fees will be reduced in the fees on your full fees payment)
    A quadcopter, quadrotor or quad is a type of radio controlled and/or GPS controlled electric helicopter. They are also produced in full scale. Quadcopters generally consist of a central hub from which four radial arms extend at ninety-degree intervals. The ends of each arm are equipped with an upward- or downward-facing outrunner motor driving standard and reverse rotation model airplane propellers or quadcopter-specific propellers. The result is an extremely stable yet nimble model aircraft with high payload capability. This makes the quadcopter an excellent base for aerial photography, FPV flight or as an autonomous flying robot/unmanned aerial vehicle. Each rotor produces both thrust and torque, with rotors one and three rotating clockwise and rotors two and four counterclockwise. This makes the net aerodynamic torque and angular acceleration about the yaw axis exactly zero in much the same manner as a coaxial helicopter. Directional flight is induced by mismatching the balance in aerodynamic torques, i.e., by offsetting the equal thrust of the motors at hover. This eliminates the need for linkages of any kind in a model quadcopter. While the lack of linkages makes a model quadcopter among the simplest of flying models from a mechanical standpoint, the electronics necessary to fly a quadcopter are often extremely sophisticated. Many rely on an inertial measurement unit combining a gyroscope with an accelerometer, barometer and magnetometer. This may be tied into a standard R/C system, a programmable GPS system, a first-person-view system or a combination of any or all of the above.

    The Internship cover's the following module (60 hour's):

    DESIGN & FABRICATION

  • Copter Angle, Accurate Angle Separation, Geomentrical Dimensioning, Fabrication of Arm, Fabrication of Holder's, Fabrication of Landing gear.


  • STRUCTURE'S
  • Hooke's Law, Material selection for Arm, Material selection for Holders, Material selection for landing gear, Material selection for Vertical stabilizer, STRESS STRAIN GRAPH.


  • PROPULSION
  • Engine benchmark motor Selection, Fuel Benchmark Battery Selection, Electronic Speed controller selection, Propeller selection Rule, and Speed calculation.


  • CONTROL SYSTEM
  • Control Board Programing, Power system Separation, Primary control system, Control Methods, Selection of Transmitter & Receiver, Selection of Servo controls, Selection of Push rods, Selection of Arms and Hinges, FLYING OF RC PLANE - SIMULATION FOR STUDENTS.


  • Quadcopter Internship certificate will be provided by SPARK - Research and Development organization.


    HOVERCRAFT

    HOVERCRAFT


    Rs. 20000

    Rs. 500
    (The registration fees will be reduced in the fees on your full fees payment)
    A hovercraft, also known as an air-cushion vehicle or ACV, is a craft capable of travelling over land, water, mud or ice and other surfaces. Hovercraft use blowers to produce a large volume of air below the hull that is slightly above atmospheric pressure. The pressure difference between the higher pressure air below the hull and lower pressure ambient air above it produces lift, which causes the hull to float above the running surface. For stability reasons, the air is typically blown through slots or holes around the outside of a disk- or oval-shaped platform, giving most hovercraft a characteristic rounded-rectangle shape. Typically this cushion is contained within a flexible "skirt", which allows the vehicle to travel over small obstructions without damage.

    The Internship cover's the following module (60 hour's):

    DESIGN & FABRICATION

  • Copter Angle, Accurate Angle Separation, Geomentrical Dimensioning, Fabrication of Arm, Fabrication of Holder's, Fabrication of Landing gear.


  • STRUCTURE'S
  • Hooke's Law, Material selection for Arm, Material selection for Holders, Material selection for landing gear, Material selection for Vertical stabilizer, STRESS STRAIN GRAPH.


  • PROPULSION
  • Engine benchmark motor Selection, Fuel Benchmark Battery Selection, Electronic Speed controller selection, Propeller selection Rule, and Speed calculation.


  • CONTROL SYSTEM
  • Control Board Programing, Power system Separation, Primary control system, Control Methods, Selection of Transmitter & Receiver, Selection of Servo controls, Selection of Push rods, Selection of Arms and Hinges, FLYING OF RC PLANE - SIMULATION FOR STUDENTS.


  • Hovercraft Internship certificate will be provided by SPARK - Research and Development organization.


    TRICOPTER

    TRICOPTER


    Rs. 35000

    Rs. 500
    (The registration fees will be reduced in the fees on your full fees payment)
    A tricopter is similar to a helicopter except that it has three vertical rotors as opposed to a heli's one (or two in the case of coaxial).

    The Internship cover's the following module (60 hour's):

    DESIGN & FABRICATION

  • Copter Angle, Accurate Angle Separation, Geomentrical Dimensioning, Fabrication of Arm, Fabrication of Holder's, Fabrication of Landing gear.


  • STRUCTURE'S
  • Hooke's Law, Material selection for Arm, Material selection for Holders, Material selection for landing gear, Material selection for Vertical stabilizer, STRESS STRAIN GRAPH.


  • PROPULSION
  • Engine benchmark motor Selection, Fuel Benchmark Battery Selection, Electronic Speed controller selection, Propeller selection Rule, and Speed calculation.


  • CONTROL SYSTEM
  • Control Board Programing, Power system Separation, Primary control system, Control Methods, Selection of Transmitter & Receiver, Selection of Servo controls, Selection of Push rods, Selection of Arms and Hinges, FLYING OF RC PLANE - SIMULATION FOR STUDENTS.


  • Tricopter Internship certificate will be provided by SPARK - Research and Development organization.


    SPARK PLANE S380

    SPARK PLANE S380


    Rs. 15000

    Rs. 500
    (The registration fees will be reduced in the fees on your full fees payment)
    A radio-controlled aircraft (often called RC aircraft or RC plane) is a small flying machine that is controlled remotely by an operator on the ground using a hand-held radio transmitter. The transmitter communicates with a receiver within the craft that sends signals to servomechanisms (servos) which move the control surfaces based on the position of joysticks on the transmitter. The control surfaces, in turn, affect the orientation of the plane.

    The RC Aeroplane SPARK S380 cover's the following module (40 hour's):

    DESIGN & FABRICATION

  • ASPECT RATIO - WING DESIGN, WING THICKNESS, AILERON SURFACE, Leading Edge of Wing location, Leading Edge of Horizontal Stabilizer location, Horizontal stabilizer design, Horizontal stabilizer thickness, Elevator surface, Vertical Stabilizer design, Vertical Stabilizer thickness, Rudder surface, WING THICKNESS BALANCE.


  • STRUCTURE'S
  • Hooke's Law, Material selection for Wing, Material selection for Fuselage, Material selection for Horizontal stabilizer, Material selection for Vertical stabilizer, STRESS STRAIN GRAPH, Fabrication of Wing, Fabrication of Horizontal Stabilizer, Fabrication of Vertical Stabilizer, Fabrication of Fuselage, Assembly of Aero plane.


  • PROPULSION
  • Engine benchmark motor Selection, Fuel Benchmark Battery Selection, Electronic Speed controller selection, Propeller selection Rule, and Speed calculation.


  • CONTROL SYSTEM
  • Primary control system, Control Methods, Selection of Transmitter & Receiver, Selection of Servo controls, Selection of Push rods, Selection of Arms and Hinges, FLYING OF RC PLANE - SIMULATION FOR STUDENTS.


  • Spark380 Plane Internship certificate will be provided by SPARK - Research and Development organization.


    SPARK S747

    SPARK S747


    Rs. 13500

    Rs. 500
    (The registration fees will be reduced in the fees on your full fees payment)
    A radio-controlled aircraft (often called RC aircraft or RC plane) is a small flying machine that is controlled remotely by an operator on the ground using a hand-held radio transmitter. The transmitter communicates with a receiver within the craft that sends signals to servomechanisms (servos) which move the control surfaces based on the position of joysticks on the transmitter. The control surfaces, in turn, affect the orientation of the plane.

    The RC Aeroplane SPARK S747 cover's the following module (40 hour's):

    DESIGN & FABRICATION

  • ASPECT RATIO - WING DESIGN, WING THICKNESS, AILERON SURFACE, Leading Edge of Wing location, Leading Edge of Horizontal Stabilizer location, Horizontal stabilizer design, Horizontal stabilizer thickness, Elevator surface, Vertical Stabilizer design, Vertical Stabilizer thickness, Rudder surface, WING THICKNESS BALANCE.


  • STRUCTURE'S
  • Hooke's Law, Material selection for Wing, Material selection for Fuselage, Material selection for Horizontal stabilizer, Material selection for Vertical stabilizer, STRESS STRAIN GRAPH, Fabrication of Wing, Fabrication of Horizontal Stabilizer, Fabrication of Vertical Stabilizer, Fabrication of Fuselage, Assembly of Aero plane.


  • PROPULSION
  • Engine benchmark motor Selection, Fuel Benchmark Battery Selection, Electronic Speed controller selection, Propeller selection Rule, and Speed calculation.


  • CONTROL SYSTEM
  • Primary control system, Control Methods, Selection of Transmitter & Receiver, Selection of Servo controls, Selection of Push rods, Selection of Arms and Hinges, FLYING OF RC PLANE - SIMULATION FOR STUDENTS.


  • S747 Plane Internship certificate will be provided by SPARK - Research and Development organization.






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