Exam 080116

Question 1

GEOMETRY MODELING

Bézier curves are defined by the followingequations:
p(u)=sum(pi*Bi(u))

Describe the different components of the formula and what they are used for

Answer 1

GEROMETRY MODELING

Pi: control points, defines the curve
Bi: weight functions, defines how the different control points affect the curve
n: Order of the curve
n+1: number of control points

There is an error on the slide so also order=n-e and number of points= n is OK

Question 2

GEROMETRY MODELING

Bézier and B-spline are two types of curves used in geometry modeling. What is the advantage of B-spline curves?

Answer 2

GEROMETRY MODELING

1. Better local control of the curve
2. Order of the polynomial does not increase with the number of control points
3. Easier to define joined curve segments

Question 3

GEROMETRY MODELING

Describe how trimmed parametric surfaces are defined/created!

Answer 3

GEROMETRY MODELING

1. Parametric surfaces are defined in a similar way as parametric curves but with two parameters u and v.
2. Parametric curves are defined in the same 2D parametric space
   - -> they are used to create holes (inner trim curves)
   - -> they are used to create outer boundry of the surface (outer trim curve)
3. The trimmed parametric surface is transformed to 3D space

Question 4

GEOMETRY ASSURANCE

Describe how a 3-2-1 locating scheme works

Answer 4

GEOMETRY ASSURANCE

1. Six DOF are locked by six points
2. Primary points A1, A2 och A3 defines a plane and locks the geometry in space in two rotation and one translation, TZ, RX, RY
3. Secondary points, B1 and B2, defines a line and locks the geometry in space in one rotation and one translation: TY, RZ
4. Tetriary point C1 locks the geometry in space in one translation: TX

Question 5

GEOMETRY ASSURANCE

What are the factors that contribute to variation in critical dimensions on a product?

Answer 5

GEOMETRY ASSURANCE

1. Design concept
   - -> robustness
2. Manufacturing process
   - -> Machine precision
   - -> process variation
   - -> Component variation
3. Assembly process
   –> Assembly precision
   –> Process variation
   Assembly variation

Question 6

VIRTUAL REALITY

Describe three different vizualisation systems for VR. Mention advantages and disadvantages with the different systems

Answer 6

1. Desktop (“Fishtank”) VR
   - PC (+tracker8 (+glove) (+stereo glasses)
   ADVANTAGE:
   –> high display resolution
   –> cheap
   –> simple to use
   DISADVANTAGE
   –> Narrow field of view
   –> Low degree of immersion
   –> not the natural scale (for e.g. cars)
2. HELMET (HMD)
   Some sort of helmet or glasses with one display for each eye

ADVANTAGE:
–> Wider FOV
–> Stereo viewing
–> High degree of immersion
–> relatively cheap
–> Simple to install
DISADVANTAGE
–> Helmet weight (1-4 kg)
–> Isolation from the world
–> only one user
–> Relatively low screen resolution

3. Powerwall (Large volume display)
   - Two or more projectors working together
   - Special software to coordinate the picture

ADVANTAGE
–> Wide FOV
–> Neutral size
–> Stereo display
–> High resolution
DISADVANTAGE
–> Not so high degree of immersion
–> Advanced computers
–> Advanced technology to obtain invisible edges between projectors
–> Expensive

Question 7

USE OF GEOMETRY DATA

Mention five different standards of geometry exchange and what type of geometry data they can handle

Answer 7

USE OF GEOMETRY DATA

1. IGES
   - Mathematical description
2. STL
   - Triangulated format
3. VRML
   - Triangulated format
4. JT
   - Both mathematical and triangulated
5. STEP
   - Mathematical description

Question 8

USE OF GEOMETRY DATA

Mention four different types of geometrical models and what they are used for

Answer 8

1. The original CAD model
   - defines the geometry of the product
2. Mechanical model
   - view of the product as a mechanical system
   - used by design to evaluate mechanical behavior
3. Visual model
   - view of the products appearance
   - used by design, management, markering etc. to view the products appearance
4. Ergonomic model
   - view of the products ergonomic properties

Question 9

USE OF GEOMETRY DATA

Mention four different usages of geometry models within production

Answer 9

USE OF GEOMETRY DATA

1. Ergonomic simulation
2. Off-line programming of industrial robots
3. Off-line programming of NC-machines
   - Off-line programming of CMMs

Question 10

MIACELLANEOUS

What does perceived geometrical quality depend on?

Answer 10

MIACELLANEOUS

1. Visual sensitivity
   - geometrical form
   - split-line placement
2. Geometrical sensitivity (locator placement)
3. Tolerances/distribution

Question 11

MISCELLANEOUS

What characterizes a feature (in the geometry modeling context)?

Answer 11

MISCELLANEOUS

• A feature is a physical part of a detail
• A feature can be linked to a generic form
• A feature has a specific engineering role (function, manufacturing, method, simulation method, etc.)
• A feature has predictable properties

Question 12

MISCELLANEOUS

What characterizes a geometrically robust assembly concept?

Answer 12

• Geometrically robust concepts are insensitive to manufacturing variation

Question 13

MISCELLANEOUS

What are the advantages of a geometrically robust assembly concept?

Answer 13

• Easier process adjustment and tuning
• shorter start and ramp-up times
• global production with high and equal quality level