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CanSat 2018 Critical Design Review (CDR) Outline Version 1.0

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Presentation on theme: "CanSat 2018 Critical Design Review (CDR) Outline Version 1.0"— Presentation transcript:

1 CanSat 2018 Critical Design Review (CDR) Outline Version 1.0
Your Team Number Here Your Team Name Here CanSat 2017 CDR: Team ### (Team Number and Name)

2 Provide a simple outline of the presentation
Presentation Outline Provide a simple outline of the presentation If possible, indicate the team member(s) who will be presenting each section Terms: Payload refers to the whole CanSat Heat shield refers to the Re-entry Heat shield component of the CanSat Probe refers to the Science Payload component of the CanSat IMPORTANT PRESENTATION GUIDELINE: Teams should only present charts with this star icon during the teleconference. Other charts should be skipped to save time; they will be reviewed by the judges off line. Presentations are to be 30 minutes in length. Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

3 CanSat 2017 CDR: Team ### (Team Number and Name)
Team Organization Single slide listing the team members and their roles If possible, please include year (freshman, sophomore, etc.) for reference This only needs to be provided once for team members showing up multiple times on the org chart Good format is the use of an organization chart, such as below: Sample CanSat 2017 CDR: Team ### (Team Number and Name)

4 CanSat 2017 CDR: Team ### (Team Number and Name)
Acronyms Provide a list of acronyms used throughout the presentation During presentations, do not read through these acronyms These are for reference only Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

5 Presenter Name(s) Go Here
The purpose of this section is to introduce the reviewer to the overall requirements and configuration of the CanSat. This provides a basis for the details presented in the subsystem sections. System Overview Presenter Name(s) Go Here CanSat 2017 CDR: Team ### (Team Number and Name)

6 CanSat 2017 PDR: Team ### (Team Number and Name)
Mission Summary Overview of the mission objectives Indicate whether one or both selectable objectives (bonus) are being attempted Describe selection rationale Include any external objectives (personal, laboratory or sponsor, class, etc.) relevant to the design Presenter: Name goes here CanSat 2017 PDR: Team ### (Team Number and Name)

7 Summary of Changes Since PDR
Overview design changes since PDR Details of the changes are discussed in subsequent sections Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

8 System Requirement Summary
Overview of system (mission) level requirements Use bullets or a table to demonstrate an understanding of the mission requirements This chart may be expanded to multiple charts as needed The purpose of the chart is to demonstrate the team understands the system-level requirements Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

9 System Concept of Operations
1 to 3 slides providing overview of CanSat operations Should include Pre-launch activities Launch and descent operations Be sure to include probe operations Post-launch recovery and data reduction Focus on launch day activities Team member roles and responsibilities on launch day Simple flow diagrams and cartoons are a good way to present the CONOPS Absolutely no hand-drawn diagrams CanSat 2017 CDR: Team ### (Team Number and Name)

10 Payload Physical Layout
Diagram(s) showing physical layout of selected CanSat configuration Make sure to include: Dimensions Placement of major components Relevant configurations Heat shield, payload, launch configuration, deployed, etc. The goal is to present the physical idea of what the CanSat will look like for reference prior to getting into details of the CanSat design Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

11 Launch Vehicle Compatibility
Include a dimensioned drawing that shows clearances with the payload section Focus on launch configuration (Heat shield + Probe) Include all descent control apparatus (no sharp protrusions) At PDR this may be allocated dimensions (if this is the case, these should be requirements at the system and subsystem levels) What is the clearance? (Leave margin to allow easy deployment!) Notes: In past years there were a large number of CanSats that did not deploy from the payload sections of the rocket because of protrusions or because the CanSat was too wide to fit in the rocket Lack of sharp protrusions and fit within the Launch Vehicle will also be scored at the Flight Readiness Review Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

12 Sensor Subsystem Design
Presenter Name(s) Go Here CanSat 2017 CDR: Team ### (Team Number and Name)

13 Sensor Subsystem Overview
One slide providing an overview of the CanSat sensor system Include summary of the selected sensors (type & models) Include brief discussion of what the sensors are used for Focus on selected component (not all components trades) Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

14 Sensor Changes Since PDR
One slide providing an overview of the CanSat sensor system changes since PDR Include rationale Clearly explain why changes were made, including things like: Power limitations Testing Component size Availability CanSat 2017 CDR: Team ### (Team Number and Name)

15 Sensor Subsystem Requirements
Overview of sensor subsystem requirements Use bullets or a table to demonstrate an understanding of the requirements for this subsystem This chart may be expanded to multiple charts as needed The purpose of the chart is to demonstrate to the judges an understanding of the requirements that apply to the subsystem Clearly indicate: Which Competition Guide Requirements are allocated to this subsystem Any derived requirements for the subsysytem Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

16 Probe Air Pressure Sensor Summary
Summary of altitude sensor selection and characteristics Include: Sensor accuracy and data format Overview of data processing (including equations, as appropriate) Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

17 Probe Air Temperature Sensor Summary
Summary of air temperature sensor selection and characteristics Include: Sensor accuracy and data format Overview of data formats (including equations, as appropriate) Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

18 CanSat 2017 CDR: Team ### (Team Number and Name)
GPS Sensor Summary Summary of GPS sensor selection and characteristics Include: Sensor accuracy and data format Overview of data formats (including equations, as appropriate) Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

19 Probe Voltage Sensor Summary
Summary of battery voltage sensor selection and characteristics Include: Sensor accuracy and data format Overview of data processing (including equations, as appropriate) Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

20 CanSat 2017 CDR: Team ### (Team Number and Name)
Tilt Sensor Summary Summary of Tilt sensor selection and characteristics Include: Sensor accuracy and data format Overview of data processing (including equations, as appropriate) Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

21 Bonus Objective Camera Summary
Summary of camera selection and characteristics Include: Ensure your camera meets the requirement of 640x480 pixels in color Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

22 Bonus Objective Wind Sensor
Summary of Wind Sensor design Include: schematic of radio and wind sensor Description of design Specifications of operation Frequencies it can use Radio receiver Describe radio receiver Block diagram or schematics Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

23 Descent Control Design
Presenter Name(s) Go Here CanSat 2017 CDR: Team ### (Team Number and Name)

24 Descent Control Overview
One slide providing an overview of the Heat shield and Probe descent control system Include overview of the selected configurations and components necessary Include diagrams outlining descent control strategy for various flight altitude ranges CanSat 2017 CDR: Team ### (Team Number and Name)

25 Descent Control Changes Since PDR
List changes since the PDR Include rationale Prototype testing CanSat 2017 CDR: Team ### (Team Number and Name)

26 Descent Control Requirements
Overview of subsystem requirements Use bullets or a table to demonstrate an understanding of the DCS requirements This chart may be expanded to multiple charts as needed The purpose of the chart is to demonstrate to the judges that the team understands the system-level requirements Clearly indicate: Which Competition Guide Requirements are allocated to this subsystem Any derived requirements for the subsystem Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

27 Payload Descent Control Hardware Summary
Describe payload descent control hardware Include stowed configuration Deployment method Deployed configuration For passive components, discuss: Component sizing Key design considerations Color selection(s) For active components, discuss: Sensor accuracy and data formats Overview of sensor data processing This discussion can carry over to multiple slides if necessary CanSat 2017 CDR: Team ### (Team Number and Name)

28 Descent Stability Control Design
Describe how the payload is kept from tumbling Describe mechanisms used. Describe how payload is kept nadir pointing. Show design of method

29 Descent Rate Estimates
Present estimates for the following CanSat configurations Heat shield + Probe post separation (prior to deployment of the Payload) Heat shield following release from the Payload Probe following separation from the Heat shield Include discussion of Calculations used Assumptions This discussion can carry over to multiple slides if necessary Last slide summarizes results. Make sure final results are clearly identified. Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

30 Mechanical Subsystem Design
Presenter Name(s) Go Here CanSat 2017 CDR: Team ### (Team Number and Name)

31 Mechanical Subsystem Overview
One slide providing overview of the mechanical subsystem Include overview of major structural elements, material selection, and interface definitions Include heat shield and Probe mechanical configurations CanSat 2017 CDR: Team ### (Team Number and Name)

32 Mechanical Subsystem Changes Since PDR
Highlight mechanical changes since PDR. Details should be discussed on subsequent slides CanSat 2017 CDR: Team ### (Team Number and Name)

33 Mechanical Sub-System Requirements
Overview of mechanical sub-system requirements Use bullets or a table to demonstrate an understanding of the mission requirements This chart may be expanded to multiple charts as needed The purpose of the chart is to demonstrate to the judges that the team understands the requirements that apply to this sub-system Clearly indicate: Which Competition Guide Requirements are allocated to this subsystem Any derived requirements for the subsystem Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

34 Payload Mechanical Layout of Components
Show structure (CAD model) include dimensions Identify location of electrical components Identify heat shield attachment points Identify major mechanical parts mechanisms such as springs, hinges, etc. Structural material selection(s) Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

35 Egg Protection Mechanical Layout of Components
Show structure (CAD model) include dimensions Identify location of electrical components Identify heat shield attachment points Identify major mechanical parts mechanisms such as springs, hinges, etc. Structural material selection(s) Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

36 Heat shield Release Mechanism
Describe how the heat shield will be connected to and released (mechanically) from the probe Include: Diagrams Description of operation Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

37 Probe Parachute Release Mechanism
Describe how the parachute is attached to the probe Describe how the parachute is stowed in or on the probe Describe how the parachute will be connected to and deployed (mechanically) from the probe Include: Diagrams Description of operation

38 Structure Survivability
As applicable for the Payload, discuss: Electronic component mounting methods Electronic component enclosures Acceleration and shock force requirements and testing Securing electrical connections (glue, tape, etc.) Consider required judge verification during pre-flight check in Descent control attachments Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

39 CanSat 2017 CDR: Team ### (Team Number and Name)
Mass Budget Table(s) providing the following: Mass of all components Mass of all structural elements Sources/uncertainties – whether the masses are estimates, from data sheets, measured values, etc. Total mass compared to requirement(s) Margins Must clearly distinguish between Heat shield and probe masses Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

40 Communication and Data Handling (CDH) Subsystem Design
Presenter Name(s) Go Here CanSat 2017 CDR: Team ### (Team Number and Name)

41 CanSat 2017 CDR: Team ### (Team Number and Name)
CDH Overview One slide providing overview of the CDH subsystem Should include selected components (with brief mention of what each component is for) CanSat 2017 CDR: Team ### (Team Number and Name)

42 CanSat 2017 CDR: Team ### (Team Number and Name)
CDH Changes Since PDR List changes to the CDH since PDR. Details of the changes should be discussed in subsequent slides Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

43 CanSat 2017 CDR: Team ### (Team Number and Name)
CDH Requirements Overview of CDH subsystem requirements Use bullets or a table to demonstrate an understanding of the mission requirements This chart may be expanded to multiple charts as needed The purpose of the chart is to demonstrate to the judges that the team understands the requirements that apply to this sub-system Clearly indicate: Which Competition Guide Requirements are allocated to this subsystem Any derived requirements for the subsystem Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

44 Probe Processor & Memory Selection
Include processor speed Include data interfaces (types and numbers) Include memory storage requirements, if applicable Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

45 CanSat 2017 PDR: Team ### (Team Number and Name)
Probe Real-Time Clock Describe design for probe real-time clock functions Hardware or software Reset tolerance Presenter: Name goes here CanSat 2017 PDR: Team ### (Team Number and Name)

46 Probe Antenna Selection
Description and characteristics of the antenna selected for the CanSat Discuss: Performance Mass CanSat 2017 CDR: Team ### (Team Number and Name)

47 Probe Radio Configuration
XBEE radio selection NETID setting Include transmission control How is this managed during each mission phase? Note: Communications failures have occurred often over the past several years of the competition You are encouraged to use your radios in all of your development and testing to better ensure mission success Ideally you have started working with the radio and communications protocol Start Radio Prototyping and Testing Early! Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

48 Probe Telemetry Format
What data is included? Include fields for bonus objectives Data rate of packets? Continuous or burst How is data formatted? Include example frames with complete descriptions Does the presented format match the Competition Guide requirements? Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

49 Electrical Power Subsystem Design
Presenter Name(s) Go Here CanSat 2017 CDR: Team ### (Team Number and Name)

50 CanSat 2017 CDR: Team ### (Team Number and Name)
EPS Overview ONE slide providing overview of EPS components (with purposes) Include a diagram Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

51 CanSat 2017 CDR: Team ### (Team Number and Name)
EPS Changes Since PDR List changes to the EPS subsystem since PDR. Details of changes should be discussed in subsequent slides. CanSat 2017 CDR: Team ### (Team Number and Name)

52 CanSat 2017 CDR: Team ### (Team Number and Name)
EPS Requirements Overview of EPS subsystem requirements Use bullets or a table to demonstrate an understanding of the mission requirements This chart may be expanded to multiple charts as needed The purpose of the chart is to demonstrate to the judges that the team understands the requirements that apply to this sub-system Clearly indicate: Which Competition Guide Requirements are allocated to this subsystem Any derived requirements for the subsystem Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

53 Probe Electrical Block Diagram
High-level schematic (not down to the resistor level) showing power connections Include required voltages Include all major components Include overview of how power will be controlled and verified externally without disassembling the CanSat I.e., an easily accessible external switch Umbilical power source for use in test and safety inspection Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

54 CanSat 2017 PDR: Team ### (Team Number and Name)
Probe Power Source Describe power source Battery selection Voltages Current capacity How much current battery can generate Presenter: Name goes here CanSat 2017 PDR: Team ### (Team Number and Name)

55 CanSat 2017 CDR: Team ### (Team Number and Name)
Probe Power Budget Power budget in tabular format which includes: Power consumption (W) of all components Expected duty cycles for all components Source/uncertainty for each line item Estimate, data sheet, measurement, etc. Total power consumed (mWh) Power sources and total power available Margins Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

56 Flight Software (FSW) Design
Presenter Name(s) Go Here CanSat 2017 CDR: Team ### (Team Number and Name)

57 CanSat 2017 CDR: Team ### (Team Number and Name)
FSW Overview Overview of the CanSat FSW design Should discuss Basic FSW architecture Programming languages Development environments Brief summary of what the FSW has to do Focus on probe operations Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

58 CanSat 2017 CDR: Team ### (Team Number and Name)
FSW Changes Since PDR Overview of the CanSat FSW changes since the PDR. Details of the changes should be discussed in subsequent slides. CanSat 2017 CDR: Team ### (Team Number and Name)

59 CanSat 2017 CDR: Team ### (Team Number and Name)
FSW Requirements Overview of FSW sub-system requirements Use bullets or a table to demonstrate an understanding of the mission requirements This chart may be expanded to multiple charts as needed The purpose of the chart is to demonstrate to the judges that the team understands the requirements that apply to this sub-system Clearly indicate: Which Competition Guide Requirements are allocated to this subsystem Any derived requirements for the subsystem Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

60 Probe CanSat FSW State Diagram
Software state diagrams for Probe defining the states and transition conditions of the flight software Things to include: Sampling of sensors (including rates) Communications (command and telemetry) Data storage (if applicable) Mechanism activations Major decision points in the logic Power management FSW recovery to correct state after processor reset during flight What data is used to recover? Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

61 Software Development Plan
A common CanSat problem is late software development Present a slide describing the plan for software development and plans to reduce the risk of late software development Include: Prototyping and prototyping environments Software subsystem development sequence Development team Test methodology Discuss progress since PDR CanSat 2017 CDR: Team ### (Team Number and Name)

62 Ground Control System (GCS) Design
Presenter Name(s) Go Here CanSat 2017 CDR: Team ### (Team Number and Name)

63 CanSat 2017 CDR: Team ### (Team Number and Name)
GCS Overview Include a simple context diagram showing major components (computers, antenna, adaptors, etc.) CanSat 2017 CDR: Team ### (Team Number and Name)

64 CanSat 2017 CDR: Team ### (Team Number and Name)
GCS Changes Since PDR List changes to the GCS subsystem since PDR. Details of changes should be discussed in subsequent slides. CanSat 2017 CDR: Team ### (Team Number and Name)

65 CanSat 2017 CDR: Team ### (Team Number and Name)
GCS Requirements Overview of GCS requirements Use bullets or a table to demonstrate an understanding of the requirements for the GCS This chart may be expanded to multiple charts as needed The purpose of the chart is to demonstrate to the judges that the team understands the requirements that apply to the GCS Examples of requirements to include: Antenna placement (portability requirements) Computational requirements Analysis SW requirements Mission operations sequence of events Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

66 GCS Design Diagram showing ground station design Identification of major components Specifications How long ground station can operate on battery Overheating mitigation Auto update mitigation

67 CanSat 2017 CDR: Team ### (Team Number and Name)
GCS Antenna Discussion of the selection of the GCS antenna Make sure to include: Antenna construction, portability, and coverage Diagram is recommended Antenna compliance with hand-held requirement Distance link predictions and margins CanSat 2017 CDR: Team ### (Team Number and Name)

68 CanSat 2017 CDR: Team ### (Team Number and Name)
GCS Software Telemetry display screen shots How will Telemetry be displayed in real time and how will it be recorded? Commercial off the shelf (COTS) software packages used Real-time plotting software design Command software and interface Progress since PDR CanSat 2017 CDR: Team ### (Team Number and Name)

69 GCS Bonus Wind Sensor Describe how wind sensor signal being received is processed into data showing wind speed How is data being displayed

70 CanSat Integration and Test
Presenter Name(s) Go Here CanSat 2017 CDR: Team ### (Team Number and Name)

71 CanSat Integration and Test Overview
Identify tests for the following: Subsystem level testing Sensors CDH EPS Communications Mechanisms Integrated Functional Level Testing Release probe from heat shield Release trigger Probe parachute release Ground station software Telemetry Antennas Environmental Testing Vibration Thermal Drop test Dimensions verification Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

72 Test Procedures Descriptions
Test Description Rqmts Pass Fail Criteria 1 Description of the test and it’s purpose. 1, 2, 45, etc. 2 3 : For each of the tests specified on the previous slide, complete this table to describe the procedures to be used All Mission Manual Requirements should be mapped to a test Pass / Fail criteria should be clear

73 Mission Operations & Analysis
Presenter Name(s) Go Here CanSat 2017 CDR: Team ### (Team Number and Name)

74 Overview of Mission Sequence of Events
Launch-day sequence of events Should start with arrival at the launch site and proceed through recovery and data analysis Include Flow chart of events Team member roles and responsibilities Antenna construction and ground system setup CanSat assembly and test Delivery of telemetry data file to field judge for review Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

75 Field Safety Rules Compliance
Discuss development and content of the Missions Operations Manual for your CanSat Two copies of the Mission Operations Manual are due at the Flight Readiness Review the day before launch Assemble in three ring binders (the Texas launch site may be windy) One copy is for the Flight Coordinator Discuss development status Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

76 CanSat Location and Recovery
Discuss how you will find your CanSats in the field Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

77 Mission Rehearsal Activities
Description of mission operations rehearsal activities including: Details of activities rehearsed to date Ground system radio link check procedures Powering on/off the CanSat Launch configuration preparations (e.g., final assembly and stowing appendages) Loading the CanSat in the launch vehicle Telemetry processing, archiving, and analysis Recovery Description of written procedures developed/required CanSat 2017 CDR: Team ### (Team Number and Name)

78 Requirements Compliance
The purpose of this section is to summarize and cross reference the compliance to the CanSat Competition Mission Guide requirements. Requirements Compliance Presenter Name(s) Go Here CanSat 2017 CDR: Team ### (Team Number and Name)

79 Requirements Compliance Overview
State current design compliance to requirements Summarize content of the detailed slides that follow If the design does not comply to the requirements, that is a serious issue – why? Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

80 Requirements Compliance (multiple slides, as needed)
Provide a table demonstrating compliance to all competition base requirements Use the following format in as many slides as required Rqmt Num Requirement Comply / No Comply / Partial X-Ref Slide(s) Demonstrating Compliance Team Comments or Notes 1 Total mass of CanSat, heat shield, and all descent control devices shall be 700 grams. Mass shall not vary more than +/-10 grams. Comply x, y, z Everything should be green by CDR. 2 The cansat must be installed in a heat shield to protect it from deployment out of the rocket. -- 3 The heat shield shall fit inside the cylindrical payload section of the rocket defined by the cylindrical payload envelope of 130 mm x 250 mm length control system including the descent Partial Medium problem: why? 4 The heat shield must use a descent control system. It cannot free fall. No Comply Big problem: why? 5 The heat shield shall not have any sharp edges that could cause it to get stuck in the rocket payload section. 6 The heat shield must be a florescent color, pink or orange. Use the Green (Comply), Yellow (Partial Compliance), and Red (No Comply) color codes as shown in the examples above for each requirement Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

81 Presenter Name(s) Go Here
Management Presenter Name(s) Go Here CanSat 2017 CDR: Team ### (Team Number and Name)

82 Status of Procurements
Provide status of sensor and component procurements What has been ordered, when it arrives, etc. This should include flight and GCS hardware (and software if being ordered) This information should be reflected in the overall schedule Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

83 CanSat Budget – Hardware
Provide a table listing the costs of the CanSat flight hardware Table should include Cost of major components and hardware Indication of whether these costs are actual, estimates, or budgeted values Indication of hardware re-use from previous years The current market value for re-used components should be included Current market value of any free components, materials and services Total expenses and compare to requirement(s) CanSat 2017 CDR: Team ### (Team Number and Name)

84 CanSat Budget – Other Costs
Table(s) (same format as Hardware Budget) showing Ground control station costs Other costs Prototyping Test facilities and equipment Rentals Computers Travel Income Sources of project income The goal(s) of this budget are To provide an understanding of the overall design and development costs Get the teams thinking about the overall costs including necessary funds for travel Identify shortfalls in the budget that require attention In the past some teams have not been able to attend the competition due to a lack of funds If caught early enough, there are a number of resources for funding that may available to teams THE COMPEITION DOES NOT PROVIDE ANY DEVELOPMENT FUNDING OR DONORS CanSat 2017 CDR: Team ### (Team Number and Name)

85 CanSat 2017 CDR: Team ### (Team Number and Name)
Program Schedule Overview of development schedule to include Competition milestones Academic milestones and holidays Major development activities Component/hardware deliveries Major integration and test activities and milestones The goals of this schedule are to Provide a tool for the team to track progress of CanSat design and development Provide tool for judges to assess trouble areas and offer ways for the team to best meet the objectives of the competition A Gantt chart on one slide showing task start and stop dates and durations is recommended Schedule should include linkages between tasks to provide the team with an idea of what happens in the overall flow when milestones are not met on time Make sure the schedule is readable in the presentation This may require the schedule to be broken between multiple slides Failure to do so will result in a loss of points Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

86 Shipping and Transportation
Discuss plans for shipping/transporting the CanSat hardware to the launch site In past competitions, CanSat hardware checked with airlines was lost Consider options for shipping hardware to the launch site (typical for a satellite and ground system program) Consider carry-on restrictions Consider shipping/transportation of tools and equipment Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

87 CanSat 2017 CDR: Team ### (Team Number and Name)
Conclusions Presentation summary and conclusions In general include the following: Major accomplishments Major unfinished work Testing to complete Flight software status Presenter: Name goes here CanSat 2017 CDR: Team ### (Team Number and Name)

88 Presentation Scoring & Additional Information
Do Not Include the Following Charts in the Presentations Presentation Scoring & Additional Information The following slides provide additional information regarding presentation scoring, as well as recommendations for the presentations and slides CanSat 2017 CDR: Team ### (Team Number and Name)

89 CanSat 2017 CDR: Team ### (Team Number and Name)
Presentation Scoring Each slide in this template is scored on a scale of 0 to 2 points 0 = missing or no compliance to the intent of the requirement 1 = topic incomplete or partial compliance to requirement(s) 2 = complete and demonstrates requirement(s) met Each section of the presentation (System Overview, Sensor Subsystems, etc.) is weighted according to the table Each team will receive a link to a summary score sheet that will contain all their competition scores CanSat 2017 CDR: Team ### (Team Number and Name)

90 CanSat 2017 CDR: Team ### (Team Number and Name)
PPT Template Use All teams shall use this presentation template Team logos A team logo can be inserted into the placeholder location (and size) on the master slide If no logo is to be used, remove the placeholder from the master slide Team numbers in the footer should be updated in the footer information view REMEMBER TO PUT YOUR TEAM NUMBER IN THE FOOTER Team names are optional – if no team name is used, please delete from footer text On each slide, replace the “Name goes here” in the bottom left corner with the name of the person(s) presenting that slide This will allow the judges to know the person to address any questions or comments to CanSat 2017 CDR: Team ### (Team Number and Name)

91 Presentation Template Update Log (Do not include in presentation)
1.0 – Initial version for 2018 CanSat 2017 CDR: Team ### (Team Number and Name)


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