DETAILED DESIGN REPORT PREPARATION GUIDE
Transcript of DETAILED DESIGN REPORT PREPARATION GUIDE
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DETAILED DESIGN REPORT
PREPARATION GUIDE
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- TABLE OF CONTENTS - Page
-EXPLANATION- ......................................................................................................... 5
1. PROJECT SUMMARY .............................................................................................. 5
1.1.Method Followed in Design ................................................................................. 5
1.2.Team Organization ............................................................................................... 5
1.3.Milestone Chart: Planned and Realized ........................................................... 5
2.DETAIL DESIGN ......................................................................................................... 6
2.1.Dimensional Parameters of the Design ............................................................ 6
2.2.Body and Mechanical Systems .......................................................................... 6
2.3.Aerodynamic, Stability and Control Features ................................................... 7
2.4.Task Mechanism System .................................................................................... 7
2.5.Electrical Electronic Control and Power Systems ........................................... 7
2.6.Target Detection and Recognition System ....................................................... 7
2.8.UAV Cost Distribution .......................................................................................... 8
2.9.Originality ............................................................................................................... 8
3.DETAILED DESIGN VIDEO SHOOTING ................................................................ 9
3.1.Flight Video ............................................................................................................ 9
3.2.Presentation Video ............................................................................................... 9
3.2.1.Team Organization.......................................................................................... 10
3.2.3.Electric Electronic Integration Process ........................................................ 10
3.2.4.Safety Features ............................................................................................... 10
3.2.5.Target Detection and Recognition System ................................................. 10
3.2.6.Task Mechanism System ............................................................................... 11
3.2.7.Sub System Tests and Performance Results ............................................. 11
3.2.8.Comparison of Detailed Design with Conceptual Design ......................... 11
3.2.9.Short Images from Flight Tests ..................................................................... 11
3.2.10. Activities Under the Scope of Originality .................................................. 12
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4. REPORT WRITING RULES ................................................................................... 13
5. REPORT EVALUATION SCORES ....................................................................... 14
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-EXPLANATION-
The detailed design report should be prepared in accordance to the explanations given under
each topic.
TEAM NAME:
VEHICLE TYPE: FIXED WING / ROTARY WING
UNIVERSITY:
TEAM CAPTAIN:
1. PROJECT SUMMARY
In this section, general introductory information should be given about the fixed or rotary wing
UAV that the applicant teams will participate in the competition with, and about the members
of the applicant teams and the skills of the team. Executive Summary should not exceed 2
pages.
1.1.Method Followed in Design
Under this heading, general introductory information about the design and development
approach of the fixed or rotary wing UAV should be given. In this section, general and summary
information about the vehicle's architecture, structure, capabilities, specific aspects of the
design and electronic components should be given.
1.2.Team Organization
Under this heading, the distribution of tasks in the design process of the fixed or rotary wing
UAV should be shown on an organization chart and information regarding the distribution of
tasks should be given. The presentation of the team members can be given by a detailed
design video.
1.3.Milestone Chart: Planned and Realized
Under this heading, detailed information should be given about the production of the fixed or
rotary wing UAV by comparing the display on the work schedule of the stages specified in the
detailed design process as planned and actual.
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2.DETAIL DESIGN
In this section, information should be given about the detailed design of the fixed or rotary wing
UAV and the original and unique aspects of the design.
2.1.Dimensional Parameters of the Design
Under this heading, information about the dimensioning, weight and balance created in the
final design of the fixed or rotary wing UAV should be given. In addition, a weight and balance
table should be created, considering the empty and loaded configurations in this table. Table
A and Table B given as examples can be used as a guidance.
Table A. Fixed or Rotary Wing UAV Part and Total Weight Table
№ Part Name Weight
(grams)
Pieces Total Weight (grams)
1
2
Total
Table B. Fixed or Rotary Wing UAV Material Weight and Balance Table
№ Part Name Weight
(grams)
X
distance
(mm)
Y
distance
(mm)
Z distance
(mm)
1
2
Total
The reference center and axes that give the X, Y, and Z distances in Table B should be defined
and represented schematically. Information about the location of the Center of Gravity (CG) of
the UAV is expected to be provided.
2.2.Body and Mechanical Systems
Under this heading, information about the design of the UAV's chassis, structural and
mechanical systems should be given. Instead of using a ready-made system chassis and body,
the methods and activities performed for the original design should be explained in this section,
explicitly. Mechanical details of the motion control elements, flight control mechanisms, landing
gear and similar components should be given.
In addition, technical drawings should be given, and necessary explanations should be made
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for the requirements listed below. The following details should be given in accordance with the
technical drawing standards:
- Three (front, right and top) view and perspective view drawings (scaled)
- Structural configuration drawings
- System layout (equipment, internal and external placement of components)
2.3.Aerodynamic, Stability and Control Features
It is necessary to determine the UAV requirements, to make aerodynamic analysis showing
that these requirements are met, and to present the results by including supportive graphics.
The method of obtaining aerodynamic properties such as transport, drag, and moment should
be explained. For example, wing or propeller selection, analytical/experimental/numerical
variation graphs of aerodynamic coefficients with relevant angles and coefficients can be
given.
In addition, the stability analysis results of the fixed or rotary wing UAV should be given and
the UAV should be shown to have stable flight. It should be shown that the UAV motion control
elements are properly designed and manufactured, and relevant details should be given.
2.4.Task Mechanism System
Under this heading, the representation of the task mechanism elements, the transfer of
design/manufacturing visuals and dimensions are important in terms of technical control.
Teams entering the technical control before the competition with a mechanism different from
the task mechanism stated in the report will be eliminated. In addition, it should be taken into
consideration that mechanisms that do not meet the functional requirements stated in the rule
booklet cannot pass technical control.
2.5.Electrical Electronic Control and Power Systems
Under this heading, detailed information such as detailed architecture, design, drawing should
be given about the electrical, electronic, control and power systems of the fixed or rotary wing
UAV. For example, control and wiring diagram, power and fuse wiring diagram, actuators
(servo), motors and other components' characteristics should be given. It is expected that the
method, steps and relevant details for the autonomous execution of the flight - mission will also
be given.
2.6.Target Detection and Recognition System
Under this heading, information should be given about the architecture of the system,
components used, sensors, hardware, software, algorithms etc. in order to recognize and
detect the load release area of the fixed or rotary wing UAV (mission-oriented). Informations
such as camera, processor, and the image processing method should be explained.
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2.7.Flight Performance Parameters
Under this heading, it is expected that the flight - mission performance calculations of the fixed
or rotary wing UAV, with different missions, will be given with tables and graphics. It is expected
that informations such as required power details, battery capacity requirement calculation,
determination of battery capacity, stall speed, maximum speed, hovering time, turning radius
of the UAV and maneuvering performance will be given.
Performance criteria are the values that enable us to measure and evaluate the success of the
prototype UAV based on numerical data. “Total Flight Weight (kg)” can be given as an example
performance criterion. This criterion is also a design constraint. Because it is limited to a
maximum of 4 kg. Another performance criterion can be given as "Task-1 Completion Time
(sec.)" or "Mission-2 Target Accuracy (%)". Many performance criteria can be defined on the
complex design and multidisciplinary structure of an UAV.
2.8.UAV Cost Distribution
Under this heading, a list of the quantities and costs of materials and equipment used in the
design of a fixed or rotary wing UAV should be given. For this purpose, a representation to be
prepared according to the product distribution tree approach (as seen in Table-1) should be
given.
Table 1. UAV material cost table
No Component Name Unit price ((TL)) Quantity
Total price
(TL)
1
2
TOTAL
2.9.Originality
Under this heading, teams are expected to state their work within the scope of originalty. The
evidential information of originally developed parts will be stated in this section. If the teams
do not have a work within the scope of originalty, they can pass by writing "There is no work
within the scope of originalty" under this heading.
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3.DETAILED DESIGN VIDEO SHOOTING
After the test flights are completed, when the UAV is ready for flight, a video in mp4 format of
the fixed or rotary wing UAV should be shot and uploaded to an online video platform.
Team videos should be made up of two parts: a flight video (max. 2 minutes) and a
presentation video (max. 8 minutes). These videos should be combined so that the first part to
play will be the flight video and followed by the presentation video. Combined video should be
uploaded to an online video platform as a single video, not exceeding 10 minutes in total.
3.1.Flight Video
Take-off images of the UAV,
Horizontal endless loop flight maneuver,
The recording of the UAV landing must be in a continuous state.
The design of the UAVs must be recorded from a distance that can be easily
distinguished and must have a suitable resolution.
The UAV design in the flight video and the UAV design given in the Detailed Design
Report must be the same.
The detailed design report and video of the teams that show a failed flight in the flight
video and/or without the flight video prepared in line with the rules will not be evaluated
and will be disqualified from the competition. Therefore, special attention should be
paid to the flight videos.
3.2.Presentation Video
In order to complement the written reports of the teams, the following titles including
the introductory information on the team and UAV are required to be explained within
the video.
The video titles are necessary to facilitate the evaluation of the presentation video, and
your content shots for the relevant titles are not limited to reveal the talent of the teams.
It is important to shoot high quality videos in high resolution by paying attention to the
location of the light source in video shooting, for the evaluation of videos.
Each title should be explained in the order given below in the video, and while the
related titles are being explained, the title in the video should be specified with a
subtitle.
Although there is no limit to the time you can devote to each topic, the presantation
video should not exceed a maximum of 8 minutes.
The minimum requirements expected from the contents of the titles that need to be told
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are written under the relevant heading, and the issues you see important in the videos
you will shoot can be determined by the team and explained in the video.
It is recommended that at least one member of the team be assigned for video and
photo shoots, as the following titles will include the details of the work during the year.
3.2.1.Team Organization
Under this heading, the introduce of the captain, pilot and team members of the fixed or rotary
wing UAV should be included.
3.2.2.Manufacturing and Assembly Process
Under this heading, sections of the videos collected during the year regarding the manufacture
and assembly of the fixed or rotary wing UAV should be explained by combining them.
3.2.3.Electric Electronic Integration Process
Under this heading, sections of the videos collected during the year regarding the integration
and assembly of materials related to electrical, electronic, control and power systems of the
fixed or rotary wing UAV should be combined and explained.
Installation of electrical and electronic elements such as power, insurance,
communication, detection, camera, control and navigation,
The methods used in the assembly and connection of electronic equipment can be
mentioned,
Types of connection to the chassis and measures taken during assembly,
These can be explained with video.
3.2.4.Safety Features
Special attention should be paid to flight safety. Safety analyses and evaluations included in
the UAV should be specified. It is expected that the fuse and circuit breaker to be used in the
system and an explanation of its features be shown. Measures taken for flight safety will be
determined and it will be shown that the fail-safe system is working.
3.2.5.Target Detection and Recognition System
Under this heading, brief information should be given about the architecture of the system, the
components used, the sensors, hardware, software, and algorithms in order to recognize and
detect the load release area of the fixed or rotary wing UAV (mission-oriented). The operation
of target detection and recognition systems using camera, processor, image processing
method etc. should be given in the video.
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3.2.6.Task Mechanism System
This heading has been requested at the same time as the written report. In the written report,
design visuals, technical drawings and working principle will be explained, and the task
mechanism system will be displayed in the video by operating the system. You can make the
demonstration as a simulated mission flight, with a camera placed near the mechanism or on
an UAV without flying on the ground. It is expected that the working logic of the ball release
mechanism for the fixed wing, and the operation of the water intake and discharge mechanism
for the rotary wing will be shown.
3.2.7.Sub System Tests and Performance Results
Under this heading, the results of the working tests of critical subsystems installed on the UAV
should be stated.
Among the tests that can be carried out are;
Power (Battery) consumption test,
Thrust tests
Chassis durability tests,
Failsafe tests
Load release area recognition, water intake / hold, discharge / drop tests,
Camera and image processing tests
The types, numbers and characteristics of the tests that can be performed should be
determined by the teams. Results can be shared on the video by providing the narration over
tables and graphs.
3.2.8.Comparison of Detailed Design with Conceptual Design
Under this heading, it is expected that a general information about the differences by visually
comparing the design model specified in the conceptual design report of the fixed or rotary
wing UAV with the real product produced as a result of the Detailed Design Report process,
will be provided. Details that are conceptually designed but cannot be realized or changed,
and the reasons for their failure should be explained. In addition, design details that were not
designed conceptually but later had to be added to the actual design can be shown by video.
3.2.9.Short Images from Flight Tests
In this section, the short shots of the teams compiled from their flight test videos, their
successful and unsuccessful moments, task trials, etc. shots are expected to be shown.
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3.2.10. Activities Under the Scope of Originality
Teams are expected to explain their work on original software / hardware and component
development, if any, in their presentation videos as specified in the competition rules. Although
the original category is not compulsory, task encouragement points and awards will be given
in this field in order to reveal the skills of the teams.
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4. REPORT WRITING RULES
In order to create a fair evaluation environment for the written report, some limitations have
been imposed on the number of pages and writing rules. If the number of pages exceeds the
limit, the score of the team is reduced by 2% of the score for each extra page. Reports can
be prepared in Turkish or English. Detailed Design Report format and Scoring Table are
announced on the competition website. The cover page is required. The design of cover page
is not restricted. There are no writing rules for the cover page. The point of reports without the
cover page is reduced by %2.
In order for the report to be evaluated, the following conditions must be met by selecting the
whole report (Ctrl + A):
Texts, table information and formulas must be "Arial" text and 11 pt.
Using the page “vertically” in A4 size,
Editing line spacing as 1.5 lines,
Page right, left, top and bottom margins must be 2.5 cm(0.984 inch),
Figure sizes, information and details should be readable without any need for
magnification,
Not exceeding 20 pages including the cover and attachments,
The written report should not exceed a 20 MB file size, and the 10-minute detailed
design video should not exceed a 100 MB file size,
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5. REPORT EVALUATION SCORES
The distribution of scoring to be made in the written and video reports you will send will be
done as follows.
TITLE SCORE
1. PROJECT SUMMARY 10
1.1 Method Followed in Design 4
1.2 Team Organisation 3
1.3 Work Timeline Planned and Realized 3
2. DETAILED DESIGN 40
2.1 Dimensional Parameters of the Design 5
2.2 Body and Mechanical Systems 5
2.3 Aerodynamics, Stability ve Control Feautures 5
2.4 Task Mechanism System 5
2.5 Electric Electronic Control and Power Systems 5
2.6 Target Detection and Recognition System 5
2.7 Flight Performance Parameters 5
2.8 UAV Cost Breakdown 5
3. DETAILED DESIGN VIDEO SHOOTING 45
3.1 Flight Video Passed/Failed
3.2 Presentation Video
3.2.1 Team Organisation 5
3.2.2 Manufacturing and Assembly Process 5
3.2.3 Electric Electronic Integration Process 5
3.2.4 Safety Features 5
3.2.5 Target Detection and Recognition System 5
3.2.6 Task Mechanism System 5
3.2.7 Sub System Tests and Performance Results 5
3.2.8 Comparison of Detailed Design with Conceptual Design 5
3.2.9 Short Images from Flight Tests 5
Video Design and Layout 5
TOTAL 100