| Backlog | In progress | Responsible | Completed | Rejected |
|---|---|---|---|---|
| Both | Find a suitable filter for the vacuum gripper (Prostate Clamping) | |||
| Both | Evaluate if the vacuum gripper is at all possible when combined with a filter. | |||
| Peter | Test alternatives for the freezer box | |||
| Øystein | Create box for testing vacuum pump with filters at St. Olavs. | |||
| Øystein | Order bigger filters | |||
| Øystein | Find a suitable replacement for the CNC (Check woodworking CNC Router) (Use leadscrews) | |||
| Peter | Test alternatives for the popping extraction method. | |||
| Locate and read Hardware X articles. | Both | |||
| Øystein | Write about possible nitrogen air cooling in the cooling page. (Hear with sebastian) | |||
| Øystein | Write about vacuum pump in clamping. | |||
| Both | Present to St Olavs on Tuesday | |||
| Øystein | Look into auto calibrating inductance for CNC | |||
| Peter | Write about freezer possibilities in Prostate Freezer. | |||
| Research what sort of camera would be nice to use for final prototype. | Peter | |||
| Peter | Make our idea of an improved mrcl (MR CORE LABS) clamping method presentable | |||
| Peter | Write about the possibility of using non-contaminating material (ice/water) to clamp/act as a sacrificial plate | |||
| Start making CAD of final software | Both | |||
| Peter | Teste steppermotorer i godt kjølt miljø | |||
| Se på måter å effektivisere Lightburn kode på. | ||||
| Design CNC i frys. (vi kjøper og tilpasser) | ||||
| Both | Kjøp CNC | |||
| Both | Tilpass CNC | |||
| Design Clamping attachment | Peter | |||
| Design camera mount | Peter | |||
| Create temperature sensor array | Peter | |||
| Find suitable cam levers | Øystein | |||
| Øystein | ||||
| Find suitable camera for freezer | Peter | |||
| Calculate optimal prostate frame size. | Peter | |||
| CAD clamping solution to explore the correct fit in the freezer. | Peter | |||
| Øystein | Modify the Z axis | |||
| Øystein | Attach the Z axis | |||
| Create the base plate | Øystein | |||
| Test the clamping solution | ||||
| Find the actual milling bed size. | ||||
| Test heating from motors vs cooling from freezer. | ||||
| Backlog | In progress | Responsible | Completed | Rejected |
|---|---|---|---|---|
| Both | Include z-axis in run-cycle | |||
| Both | Calibrate camera to workstation-bed | |||
| Both | Test GRBL and drill in current freezer setup to see if the electronics hold up | |||
| Find a good freezer with a door/drawer for easier user "interface" | ||||
| Both | Design clamping method | |||
| Both | Create clamp testing prototype | |||
| Search for colder testing/operating environments | ||||
| Clean the drill (for metal shavings) | ||||
| Håvard | Get Lightburn license for both laptops | |||
Both | Make CNC ready for small scale testing, in order to test gripping strength of different clamping methods. | |||
| Both | Test vacuum gripping method with frozen slices of turkey | |||
| Both | Design new drill bed lid (with o-ring, metal mesh and other possible solutions) | |||
| Peter | Configure the camera | |||
| Øystein | Create aluminium drill-plate | |||
| Øystein | Create freezing plates for test-samples | |||
| Both | Clean the freezer to look more professional | |||
| Both | Design active cooling mechanism | |||
| Both | Integrate active cooling mechanism | |||
| Both | Design pre-test | |||
| Both | Run pre-test | |||
| Both | Design final test | |||
| Both | Run final test |