Difference between revisions of "S15: Drone"

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=== PID ===
 
=== PID ===
PID (proportional-integral-derivative) is a closed-loop control system that try to get the actual result closer to the desired result by adjusting the input. Quadcopters use PID controller to achieve stability.
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PID (proportional-integral-derivative) is a closed-loop control system that try to get the actual result from the IMU sensors closer to the desired result from the RC transmitter by adjusting the input. Quadcopters use PID controller to achieve the stability.
  
[[File:PIDimage.jpg|Fig 1. PID]]
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[[File:PIDimage.jpg|Fig 2. PID]]
  
 
There are 3 algorithms in a PID controller, they are P, I, and D respectively. P depends on the present error, I on the accumulation of past errors, and D is a prediction of future errors, based on current rate of change.
 
There are 3 algorithms in a PID controller, they are P, I, and D respectively. P depends on the present error, I on the accumulation of past errors, and D is a prediction of future errors, based on current rate of change.
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[[File:quadcopter-pid_per_axis.jpg|Fig 3. PID]]
  
 
=== Implementation ===
 
=== Implementation ===

Revision as of 21:28, 22 May 2015

Grading Criteria

  • How well is Software & Hardware Design described?
  • How well can this report be used to reproduce this project?
  • Code Quality
  • Overall Report Quality:
    • Software Block Diagrams
    • Hardware Block Diagrams
      Schematic Quality
    • Quality of technical challenges and solutions adopted.

Project Title

Abstract

Unmanned Aerial Vehicles (UAVs) are gaining popularity in military operations as surveillance and weapons platforms, UAV's are being produced more than the conventional aircrafts. A recent rule in 2012, where an UAV less than a 55 pounds can be used for commercial purpose has brought lot of research in industries. A commonly used UAV is a quad-copter, which is used widely in commercial applications like delivering pizzas's, couriers,etc. A quadcopter can used for entertainment purpose like Apart from commercial use, a quadcopter could can save someone's life by reaching the spot in emergency situations before an ambulance.

Objectives & Introduction

Show list of your objectives. This section includes the high level details of your project. You can write about the various sensors or peripherals you used to get your project completed.

The goal of the project was to design an autonomous Quadcopter capable of self-sustained flight via wireless communications utilizing SJ-1 board. The flight controller for the Quadcopter is achieved by SJ-1 board.

Team Members & Responsibilities

  • Bhushan Gopala Reddy
  • Karthik Govindaswamy
  • Rishikesh Nagare
  • Mayur Salve
  • Manuj Shinkar

Schedule

Show a simple table or figures that show your scheduled as planned before you started working on the project. Then in another table column, write down the actual schedule so that readers can see the planned vs. actual goals. The point of the schedule is for readers to assess how to pace themselves if they are doing a similar project.

Sl.No Start Date End Date Task Status Actual Completion Date
1 03/17/2015 03/24/2015 Ordered parts for quad-copter Completed 09/24/2015
2 03/25/2015 03/31/2015 Assembled quad-copter and Tested it using pre-programmed board (KK 2.1.5). Completed 03/31/2015
3 04/01/2015 04/07/2015 Interfaced Motors and RC to SJOne Board. Completed 04/07/2015
4 04/07/2015 04/14/2015 Study quad-copters software framework provided by Preet Ongoing --/--/2015
5 04/14/2015 04/21/2015 Interface and test 10-DOF IMU sensor by Adafruit. Ongoing --/--/2015
6 04/21/2015 05/05/2015 Understanding and Tuning PID values. --/--/2015
7 05/05/2015 05/19/2015 Final Testing. --/--/2015

Parts List & Cost

Give a simple list of the cost of your project broken down by components. Do not write long stories here.

Item# Part Desciption Vendor Part Number Qty Cost
1 Motors and Propellers tiger motors 2 $89.99
2 Afro ESC 30 Amp Speed Controller (SimonK Firmware) Turnigy 6 $84
3 Turnigy 9X 9Ch Transmitter w/ Module & 8ch Receiver (Mode 2) (v2 Firmware) Turnigy 1 $59.99
4 Turnigy nano-tech 4000mAh 3S1P 25-50C Lipo Pack Turnigy 1 $26.90
5 Hobbyking SK450 Glass Fiber Quadcopter Frame 450mm Hobbyking 1 $17.99
6 Landing Kit set Hobbyking 1 $9.49
7 Hobbyking Quadcopter Power distribution board Hobbyking 1 $3.39
8 Hobbyking Lipoly low voltage alarm Hobbyking 1 $2.15
9 Turnigy Battery Strap Hobbyking 1 $1.59
10 Mounting pad Hobbyking 1 $1.99
11 4mm bullet heads to connect battery to power distribution board polymax 1 $2.83
12 Vibration damping balls 1 $9.10
13 3.5 mm bullet heads for power break distribution board 1 $1.83
14 iMax B6 Battery Charger 1 $33.46

Design & Implementation

The design section can go over your hardware and software design. Organize this section using sub-sections that go over your design and implementation.

Inertial Measurement Unit

File:10dof.jpg
Fig 1. MPU-9150 Breakout Board

The Inertial Measurement Unit (IMU) is an integrated sensor device which measures accleration and tilt by Accelerometer, angular velocity and orientation by Gyroscope and gravitational forces by Magnetometer.

Inertial Measurement Unit by Adafruit provides 10 DOF(actually 11) i.e 3-axis accelerometer, 3-axis gyroscope, 3-axis magnetometer barometric pressure sensor and temperature sensor. These values are sent to SJ-1 board over I2C, where the further processing is done by SJ-1 board to determine the angular position of the Quadcopter.

Remote Controlled

Hardware Design

Discuss your hardware design here. Show detailed schematics, and the interface here.

Hardware Interface

In this section, you can describe how your hardware communicates, such as which BUSes used. You can discuss your driver implementation here, such that the Software Design section is isolated to talk about high level workings rather than inner working of your project.

Software Design

Show your software design. For example, if you are designing an MP3 Player, show the tasks that you are using, and what they are doing at a high level. Do not show the details of the code. For example, do not show exact code, but you may show psuedocode and fragments of code. Keep in mind that you are showing DESIGN of your software, not the inner workings of it.

PID

PID (proportional-integral-derivative) is a closed-loop control system that try to get the actual result from the IMU sensors closer to the desired result from the RC transmitter by adjusting the input. Quadcopters use PID controller to achieve the stability.

Fig 2. PID

There are 3 algorithms in a PID controller, they are P, I, and D respectively. P depends on the present error, I on the accumulation of past errors, and D is a prediction of future errors, based on current rate of change.

Fig 3. PID

Implementation

This section includes implementation, but again, not the details, just the high level. For example, you can list the steps it takes to communicate over a sensor, or the steps needed to write a page of memory onto SPI Flash. You can include sub-sections for each of your component implementation.

Testing & Technical Challenges

Describe the challenges of your project. What advise would you give yourself or someone else if your project can be started from scratch again? Make a smooth transition to testing section and described what it took to test your project.

Include sub-sections that list out a problem and solution, such as:

My Issue #1

Discuss the issue and resolution.

Conclusion

Conclude your project here. You can recap your testing and problems. You should address the "so what" part here to indicate what you ultimately learnt from this project. How has this project increased your knowledge?

Project Video

Upload a video of your project and post the link here.

Project Source Code

References

Preetpal Kang, Professor of CMPE 244, Computer Engineering, Charles W. Davidson College of Engineering, San Jose State University, Feb-May 2015.


Acknowledgement

Any acknowledgement that you may wish to provide can be included here.

References Used

List any references used in project.

Appendix

You can list the references you used.