Structured information on the device
User and evironment
| Who is the intended user? | Self-user/patient |
|---|---|
| Is training required in addition to the expected skill level of the intended user? | Yes |
| If training is required, please describe who will deliver the training and the materials and time required for the training. | The biomedical engineer most likely, but some other people (such as doctors) could be taught in order to deliver the training to the patients since it will not be very difficult. It will not need any extra materials apart from the prosthesis, and the time needed would be probably around one session. |
| Is any maintenance or calibration required by the user at the time of use? | No |
| Where will the technology be used? | rural settings, urban settings, outdoors, indoors, at home |
Health technology specifications
| Dimensions (mm3) | 25 mm x 10 mm x 6 mm |
|---|---|
| Weight (kg) | 0.8 kg |
| Does it require the use of consumables? For example, disposable batteries, disposable electrodes, etc. | No |
| Estimated life time | 1 Days 1 Months 2 Years |
| Estimated shelf life | 1 Years |
| Can it have a telemedicine or eHealth application? | Yes |
| Does it use any kind of software? | Yes |
| If yes, please describe the software, whether it is open source or proprietary, its use and/or license fee, etc. (10-70 words). | The software will be open source and it will not have license fee since I will write it with open source information from the sensors. |
| If yes, can the software be customized for local use? Please explain (10-70 words). Include languages available. | It could be customized, for example, to display the temperature in Celsius or Farenhait |
| Is it portable? | Portable |
| Type of use | Long term use |
| Does the technology require maintenance? |
No |
| Energy requirements |
Power supply for recharging Voltage required: 6 V Time required to recharge: 3 hours 0 minutes Battery life with full charge: 8 hours 0 minutes |
| Facility requirements |