Robotics Training in Pakistan

Robotics Training
Robotics Training

Course Fee:  20,000

Duration:  3 Weeks

Timing:  9AM-11AM, 11AM-1PM, 1PM-3PM, 3PM-5PM, 5PM-7PM, 7PM-9PM

Course Outline of Robotics Training

  1. Fundamentals of programming concepts
  2. Scientific method and inquiry
  3. Basic physics and physical science concepts
  4. Programming concepts related to robotics
  5. Fundamentals of engineering concepts related to robotics
  6. Focus on teamwork and collaboration
  7. Robotics competitions and the robotics industry
  8. Introduction to 3D Printing
  9. COMPUTER SOFTWARE:
  10. LabVIEW: LabVIEW is (short for Laboratory Virtual Instrument Engineering Workbench) is a
  11. system-design platform and development environment for a visual programming language
  12. from National Instruments.
  13. ROBOTICS
  14. How are signals sent?
  15. How much current will my robot draw?
  16. How much will a motor lift?
  17. How does gear ratios affect speed and torque?
  18. Does wheel size matter?
  19. CALCULATIONS/FORMULAS
  20. Equation Sheet
  21. Vector Math
  22. Free-Body Diagrams
  23. Force
  24. Torque
  25. Center of Mass
  26. Statics
  27. Inertia
  28. Kinematics
  29. Dynamics
  30. Machines
  31. HARDWARE / TOOLS
  32. Fasteners
  33. Machine Thread
  34. Standard Thread
  35. Tapping & Die
  36. Thread Size
  37. Internal
  38. External
  39. Bearings
  40. Inside Diameter
  41. Outside Diameter
  42. Width
  43. Flanged
  44. Non-flanged
  45. Type
  46. Hand Tool Identification
  47. RAW MATERIALS
  48. Stock
  49. Material
  50. Length
  51. Wall Thickness
  52. Material Grade
  53. Diameter
  54. Square Tubes
  55. Solid Angles
  56. Rectangular Bars
  57. Round Tubes
  58. Square Bars
  59. Hexagon Bars
  60. Round Rods
  61. Strips
  62. Plates
  63. Sheets
  64. ELECTRICITY
  65. BASICS
  66. Crimping
  67. Wire Gauge
  68. Soldering
  69. Multimeter
  70. Simple Schematic
  71. ELECTRICAL COMPONENTS
  72. DC Circuits
  73. Power Distribution Board
  74. Solenoids
  75. Relay Module (Spike)
  76. PWMs – Speed Control (Victor 884) / Speed Controller (Jaguar)
  77. DC Motor
  78. Servor
  79. Compact Fan (Large)
  80. Compact Fan (Small)
  81. Circuit Breaker ( 20Amp, 30Amp, 40Amp)
  82. Panel Signal Light
  83. 120A Circuit Breaker
  84. Battery
  85. Potentiometer
  86. Switches
  87. Types of Switches
  88. lide Switches
  89. Push Buttons
  90. Center Off
  91. SPDT
  92. DPDT
  93. SPST
  94. Types of Mounts
  95. Vertical
  96. Horizontal
  97. Side
  98. PCB
  99. Solder-Type
  100. Robot Electrical System
  101. SENSORS
  102. Microswitch
  103. Optical Encoder
  104. Accelerometer
  105. Gyroscope
  106.  CABLES
  107. 2-Wire Jumper Cable
  108. Servo Y-Splitter Cable
  109. Ethernet Cable
  110. PWM Cable
  111. PNEUMATIC COMPONENTS
  112. Fittings
  113. Teflon Tape
  114. Air Compressor
  115. Air Pressure Regulator (Adjustable)
  116. Air Pressure Gauge
  117. Accumulator (Volume Tank)
  118. Air Pressure Switch
  119. Relief Valve
  120. Solenoid
  121. Air Cylinder
  122. Bore Size
  123. Stroke
  124. Mounting
  125. Single Action
  126. Double Action
  127. Pneumatic Tubing
  128. TRANSMISSION
  129. Cluster Gear
  130. Width
  131. Diameter
  132. Bore Size
  133. Pitch
  134. Material
  135. Output Gear
  136. Width
  137. Diameter
  138. Bore Size
  139. Pitch
  140. Material
  141. Pinion Gear
  142. Width
  143. Diameter
  144. Bore Size
  145. Pitch
  146. Material
  147. Output Shaft
  148. Diameter
  149. Keyway
  150. Material
  151. Output Sprocket
  152. Width
  153. Diameter
  154. Bore Size
  155. Pitch
  156. Material
  157. Machine Key
  158. Width
  159. Length
  160. Height
  161. Material
  162. WHEELS
  163. Skyway Wheels
  164. Bearing Size
  165. Wheel Diameter
  166. Wheel Thickness
  167. Bolt Pattern
  168. Rover Wheels
  169. Bearing Size
  170. Wheel Diameter
  171. Wheel Thickness
  172. Bolt Pattern
  173. Omni Wheels
  174. Bearing Size
  175. Wheel Diameter
  176. Wheel Thickness
  177. Bolt Pattern
  178. Traction Wheels
  179. Bearing Size
  180. Wheel Diameter
  181. Wheel Thickness
  182. Bolt Pattern
  183. Casters
  184. Bearing Size
  185. Wheel Diameter
  186. Wheel Thickness
  187. Bolt Pattern
  188. SPROCKETS
  189. Wheel Sprocket
  190. Width
  191. Diameter
  192. Bore Size
  193. Pitch
  194. Bolt Pattern
  195. Material
  196. CHAIN
  197. Type of Chain
  198. Half Link for Chain
  199. Master Link for Chain
  200. BELTING
  201. Belts
  202. Length
  203. Width
  204. Pitch
  205. Material
  206. BELT SPROCKET
  207. Small Supporting Sprocket
  208. Width
  209. Diameter
  210. Bore Size
  211. Pitch
  212. Material
  213. Supporting Sprocket of Teeth
  214. Width
  215. Diameter
  216. Bore Size
  217. Pitch
  218. Material
  219. Large Supporting Sprocket
  220. idth
  221. Diameter
  222. Bore Size
  223. Pitch
  224. Material
  225. CONTROL SYSTEM
  226. DRIVER STATION
  227. Radio, Driver Station
  228. Joystick
  229. Dongle – Enable/Disable
  230. Driver Station
  231. ROBOT CONTROLLER
  232. Radio, Robot
  233. Mobile Device Controller
  234. Analog Input Module
  235. Digital I/O Module
  236. Digital Sourcing Module
  237. Analog Breakout
  238. Solenoid Breakout
  239. Digital Sidecar

Description of Robotics programming & Robotics courses

Our robotics classes aim to build computer knowledge in the context of a programming project for the breakdown of tasks into elementary actions. What does it means of our robotics programming courses We’ll give you a full robotic training, complete with building instructions, programming missions, and the smart device control app and Robotics course is perfect for who wants to start robotic process automation trainingOur carefully created activities are designed to tailor teaching and learning to every individual needs of online robotics classes. Students who attend this robotics training will be listened to, encouraged and challenged by one of our experienced and qualified teachers while being nurtured and motivated through our sessions which take place in small groups.

Our goals of robotics process automation courses.

The programs aim to:

  • Give rpa classes a new way to learn science, technology, math and engineering.
  • Provide in-depth knowledge and understanding of the rapidly developing field of computational intelligence, robotics and other related fields of rpa training.
  • Encourage independent thinking, intellectual curiosity and a critical approach to evidence, theories and concepts in a thematic environment.

Learning outcomes of robotic engineering course.

After successfully completing the programs of best robotics courses, you will be able to:

  • Gather, organize and critically evaluate the information necessary to formulate and solve problems.
  • Apply acquired knowledge effectively and efficiently in computer intelligence, robotics and related fields.
  • Use their creativity and foster innovation in solving unfamiliar problems.
  • This software provides theoretical knowledge and enables practical implementation in the fields of science, technology, engineering and mathematics (STEM).
  • Educational goals are considered achieved by demonstrating scientific principles in a fun and accessible manner, combining experiences that form scientific intuition with processes that engage the imagination and develop soft skills.

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