Anyone who has owned a mobile phone with built in GPS (e.g. Blackberry Curve, Nokia N95) will welcome the work of Air Semiconductors who have created a GPS solution which drains as little as 1% of the power of previous solutions. The prodigious battery munching capabilities of the GPS on N95 led this particular user to be something of an electricity junky.
Air Semiconductor, who are backed by Pond Venture Partners (they know a thing or two about semiconductors- the team include some of the brains behind ARM), also explain how their Airwave-1 chip eliminates time-to-first-fix and hence provides an instantaneous location. The combination of these two innovations means that not only mobile phones, but digital cameras, will be able to geotag images seamlessly... and enable a whole raft of other applications.
As the owner of 3 Nokia N95 chargers (kept in multiple locations in my life "just in case"), I'm really looking forward to this technology arriving in the consumer marketplace.
Monday, April 07, 2008
Sunday, April 06, 2008
Complex Event Processing in Healthcare
It is interesting how new ideas and technologies rise to meet the needs of one industry and then diffuse into other industries. Classic examples are the trickledown from aerospace into the motor industry, and the application of diagnostic imaging technology into airport security.
I've recently spotted the early stages of a technology which has risen in the investment banking sector now starting to find its feet in healthcare. The technology is known as complex event processing (CEP).
As recorded on Wikipedia, a complex event is "what one infers from simple events" and gives the example of a lady in a white dress, a man in a tuxedo and lots of rice flying through the air being a wedding. In banking, CEP is used to take on board very simple events (e.g. sell prices) and infer from them something richer (e.g. market trends) from which a decision can be made (e.g. go short on a specific portfolio stocks). A search on Google of "complex event processing healthcare" returns a relatively modest 193,000 results. I can see this exploding and look forward to checking in with Google Trends in due course to see the references rolling in.
One area of health care where I think this will hold great value is in post-operative recovery monitoring of vital signs. The Association of Anaesthetists of Great Britain and Ireland recommends that during anaeasthesia and recovery a variety of monitors should supplement clinical observation. The challenge is that once outside of theatre the available clinical resources are limited and can only observe on a sampled basis. Also, the analysis of the monitor readings is trying to spot early onset of a complex range of problems such as hypoxemia, hypoventilation, hypotension, hypertension, hyperthermia, hypothermia and dysrhythmias.
In the event of deteriation, rapid response is a critical success factor in intervention. Different jurisdictions recommend different frequencies of monitoring (research for this article found a range from 5 mins to 30 mins for most vital signs) so you can't help but feel this is driven by the limiting factor of resources rather than clinical need. In fact, muscle relaxants (one possible intervention) are often chosen on the basis of an onset speed which is measured in minutes, not tens of minutes. CEP could be applied to spot problems on a real time basis, moving the limiting factor onto being the monitors' sample rates rather than the care pathway. I'd be very interested in talking to anyone who's working in applications in this area.
Like many other technologies in healthcare, no doubt we will see the rise of this technology met by the acronym being misinterpreted as clinical event processing. Look out for that!
I've recently spotted the early stages of a technology which has risen in the investment banking sector now starting to find its feet in healthcare. The technology is known as complex event processing (CEP).
As recorded on Wikipedia, a complex event is "what one infers from simple events" and gives the example of a lady in a white dress, a man in a tuxedo and lots of rice flying through the air being a wedding. In banking, CEP is used to take on board very simple events (e.g. sell prices) and infer from them something richer (e.g. market trends) from which a decision can be made (e.g. go short on a specific portfolio stocks). A search on Google of "complex event processing healthcare" returns a relatively modest 193,000 results. I can see this exploding and look forward to checking in with Google Trends in due course to see the references rolling in.
One area of health care where I think this will hold great value is in post-operative recovery monitoring of vital signs. The Association of Anaesthetists of Great Britain and Ireland recommends that during anaeasthesia and recovery a variety of monitors should supplement clinical observation. The challenge is that once outside of theatre the available clinical resources are limited and can only observe on a sampled basis. Also, the analysis of the monitor readings is trying to spot early onset of a complex range of problems such as hypoxemia, hypoventilation, hypotension, hypertension, hyperthermia, hypothermia and dysrhythmias.
In the event of deteriation, rapid response is a critical success factor in intervention. Different jurisdictions recommend different frequencies of monitoring (research for this article found a range from 5 mins to 30 mins for most vital signs) so you can't help but feel this is driven by the limiting factor of resources rather than clinical need. In fact, muscle relaxants (one possible intervention) are often chosen on the basis of an onset speed which is measured in minutes, not tens of minutes. CEP could be applied to spot problems on a real time basis, moving the limiting factor onto being the monitors' sample rates rather than the care pathway. I'd be very interested in talking to anyone who's working in applications in this area.
Like many other technologies in healthcare, no doubt we will see the rise of this technology met by the acronym being misinterpreted as clinical event processing. Look out for that!
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