ARM: Difference between revisions

From Computer Laboratory Group Design Projects
Jump to navigationJump to search
No edit summary
No edit summary
Line 5: Line 5:
'Lee Smith' <Lee.Smith@arm.com>
'Lee Smith' <Lee.Smith@arm.com>


Intensive Care for Ebola
[[Intensive Care for Ebola]]


One of the major challenges in Ebola outbreak regions is information management. Most patient care is done by people with neither medical or IT experience, and often low levels of literacy. Their training is often only 3 or 4 days, mostly focusing on hygiene and use of protective clothing. Your goal is to create an electronic patient record system that will run on a smartphone, suited to the network connections, power supply and hardware limitations in rural Africa. The system should help regular collection and progression monitoring of symptom reports and vital signs as would be done in a hospital intensive care unit. It might also present users with advice on triage and patient care. Deployment should be easily customisable for local languages, and provide mechanisms to feed data back to international coordination bodies such as the World Health Organisation.
One of the major challenges in Ebola outbreak regions is information management. Most patient care is done by people with neither medical or IT experience, and often low levels of literacy. Their training is often only 3 or 4 days, mostly focusing on hygiene and use of protective clothing. Your goal is to create an electronic patient record system that will run on a smartphone, suited to the network connections, power supply and hardware limitations in rural Africa. The system should help regular collection and progression monitoring of symptom reports and vital signs as would be done in a hospital intensive care unit. It might also present users with advice on triage and patient care. Deployment should be easily customisable for local languages, and provide mechanisms to feed data back to international coordination bodies such as the World Health Organisation.


Online Identity for the Base of the Pyramid
[[Online Identity for the Base of the Pyramid]]


Initiatives such as Girl Effect and Africa's Voices provide new content channels for the poorest people in developing countries to gain a visible online identity. How could you minimise the educational and financial obstacles to their visibility in the global media ecosystem? SMS hubs, or Raspberry Pi with cameras? Are keyboards, screens or batteries actually essential? You'll need to consider the whole system: network infrastructure, content propagation if servers aren't powered up 24/7, literacy and appropriate interaction mechanisms for those whose technical expertise may be limited, but who will be empowered by gaining new skills.
Initiatives such as Girl Effect and Africa's Voices provide new content channels for the poorest people in developing countries to gain a visible online identity. How could you minimise the educational and financial obstacles to their visibility in the global media ecosystem? SMS hubs, or Raspberry Pi with cameras? Are keyboards, screens or batteries actually essential? You'll need to consider the whole system: network infrastructure, content propagation if servers aren't powered up 24/7, literacy and appropriate interaction mechanisms for those whose technical expertise may be limited, but who will be empowered by gaining new skills.


Wild Pet Science
[[Wild Pet Science]]


Children are often strong supporters of wildlife conservation, but also have pets of their own. The goal of this project is to help them engage with the science of wildlife tracking (via public data sources such as movebank.org), comparing that data to monitoring information that they collect themselves. Although Movebank uses GPS, sonar and other expensive techniques, you could use simple image analysis from a Raspberry Pi time-lapse camera to identify the position of a goldfish, a guinea pig or a hamster in its cage. Children should be able to use the data they collect to make comparisons between their own pets and wild animals - this might include foraging behaviour, "migrations" or seasonal variation in activity.
Children are often strong supporters of wildlife conservation, but also have pets of their own. The goal of this project is to help them engage with the science of wildlife tracking (via public data sources such as movebank.org), comparing that data to monitoring information that they collect themselves. Although Movebank uses GPS, sonar and other expensive techniques, you could use simple image analysis from a Raspberry Pi time-lapse camera to identify the position of a goldfish, a guinea pig or a hamster in its cage. Children should be able to use the data they collect to make comparisons between their own pets and wild animals - this might include foraging behaviour, "migrations" or seasonal variation in activity.




From Pawel:
Other ideas::


"I'm sorry Dave, I'm afraid I can't do that" is one of the  
"I'm sorry Dave, I'm afraid I can't do that" is one of the  

Revision as of 09:53, 28 October 2014

Contact: Dominic Vergine <Dominic.Vergine@arm.com>

'Pawel Moll' <Pawel.Moll@arm.com>

'Lee Smith' <Lee.Smith@arm.com>

Intensive Care for Ebola

One of the major challenges in Ebola outbreak regions is information management. Most patient care is done by people with neither medical or IT experience, and often low levels of literacy. Their training is often only 3 or 4 days, mostly focusing on hygiene and use of protective clothing. Your goal is to create an electronic patient record system that will run on a smartphone, suited to the network connections, power supply and hardware limitations in rural Africa. The system should help regular collection and progression monitoring of symptom reports and vital signs as would be done in a hospital intensive care unit. It might also present users with advice on triage and patient care. Deployment should be easily customisable for local languages, and provide mechanisms to feed data back to international coordination bodies such as the World Health Organisation.

Online Identity for the Base of the Pyramid

Initiatives such as Girl Effect and Africa's Voices provide new content channels for the poorest people in developing countries to gain a visible online identity. How could you minimise the educational and financial obstacles to their visibility in the global media ecosystem? SMS hubs, or Raspberry Pi with cameras? Are keyboards, screens or batteries actually essential? You'll need to consider the whole system: network infrastructure, content propagation if servers aren't powered up 24/7, literacy and appropriate interaction mechanisms for those whose technical expertise may be limited, but who will be empowered by gaining new skills.

Wild Pet Science

Children are often strong supporters of wildlife conservation, but also have pets of their own. The goal of this project is to help them engage with the science of wildlife tracking (via public data sources such as movebank.org), comparing that data to monitoring information that they collect themselves. Although Movebank uses GPS, sonar and other expensive techniques, you could use simple image analysis from a Raspberry Pi time-lapse camera to identify the position of a goldfish, a guinea pig or a hamster in its cage. Children should be able to use the data they collect to make comparisons between their own pets and wild animals - this might include foraging behaviour, "migrations" or seasonal variation in activity.


Other ideas::

"I'm sorry Dave, I'm afraid I can't do that" is one of the iconic quotation in SF cinema history. Let's make it happen again!

Raspberry Pi can process images using its camera interface and > audio using external sound interface. Basing on this, build a "HAL 9001" > module (as technology moved forward since 2001, it doesn't have to as > big as the original 9000 version, however extra points for a round, > red-glowing eye on its enclosure :-) that will recognize and greet > registered users (and record aliens), answer questions about time, > weather, notify the user about new email and/or social media messages, > read day schedule etc.

As a stretch goal, HAL 9001 "IoT Edition" could be also used to > control external appliances, for example lighting in the room (think "Computer! > Lights!" command used every second on board of NCC-1701* ships). > Communication should preferably be using Bluetooth Low Energy based > protocols, with mBed boards as nodes. The "smart home" could be also > simulated on an external PC/tablet and controlled via Rapberry Pi's > Ethernet (or WiFi) interface.