When Cadillac engineers introduced a PC for the car 11 years ago, it's unlikely they ever foresaw a day when an auto manufacturer would use computing power to check the glucose levels of diabetics inside the vehicle.
Unlikely as that may seem, though, it's exactly what Ford Motor Co. did recently. Ford announced that its engineers were working on a research project in which the Ford Sync's communications system would be linked to glucose monitors worn by drivers or passengers in the car. The application enables the monitor to "talk" to the vehicle via a Bluetooth connection, even going so far as to interrupt a phone call or a navigation directive to alert the driver to a potentially dangerous blood sugar level.
Ford is working with SDI Health and www.pollen.com to sync-enable an Allergy Alert app to provide day-by-day index levels for pollen, asthma, cold, and cough forecasts.
Source: Ford Motor Co.
What's really striking, however, is the contrast between the glucose monitor idea and Cadillac's in-car PC development. Twelve years ago, GM charged its engineers with the task of designing a PC for the sporty Seville STS. It was, in essence, an inside job. The giant automaker assigned 60 engineers to the project, and after 19 furious months, rolled out a product capable of connecting drivers to their email and to the Internet. The project had the blessing of GM's bigwigs, all the way up to former chairman and CEO Rick Wagoner.
Unfortunately, it didn't stick. Thirty months later, Cadillac's auto "infotainment" system was shelved.
Now contrast that with Ford's story. Ford was initially approached by Medtronic Inc., a major manufacturer of electronic medical systems. Medtronic's idea was to sync up with the pre-existing Ford Sync and create a health aid for drivers who happen to be among America's 26 million diabetes sufferers.
It wasn't a simple matter for Ford engineers, but it wasn't a 19-month project for a crew of 60, either. Ford's small engineering team wrote software that would enable the monitor to communicate with Sync, while also endowing Sync with the ability to arbitrate the device's demand for its time.
"It's a matter of recognizing that there's another valid participant in the connected ecosystem within the vehicle," explains K. Venkatesh Prasad, senior technical leader for Infotronics Research and Advanced Engineering at Ford, in an interview.
The idea, Prasad says, is to make sure the additional complexity of the device doesn't overwhelm the users. "We have to make sure we do the right thing for the drivers. We have to manage all of that for them."
Still, it's a big change from the way things were done 11 years ago.
That's not to say GM did it wrong and Ford did it right. For all we know, the Ford-Medtronic glucose measurement system may never see the light of day.
Medtronic's glucose monitor uses Bluetooth to "talk" to Ford Sync, which arbitrates the device's demand for its time.
Source: Medtronic Inc.
No, the point is that the business/engineering model has changed since 2000. Ford didn't go out and build its own glucose monitor. Instead, it worked with Medtronic, just as it is now working with SDI Health on in-vehicle allergy alerts and with WellDoc on cloud-based health services.
That's the same approach all automakers are now using for in-vehicle music. Today, drivers can bring their iPods into the vehicle, or just access their personal music lists from the cloud.
Using today's business model, automakers can react more quickly to new technological trends. And health seems to be one of those trends.
"As the population ages, consumers with chronic diseases are looking for ways to get peace of mind," says Thilo Koslowski, vice president and distinguished analyst for Gartner Group, in an interview. "They're realizing that smart devices are available to manage their health-related issues, and they expect those devices to be available to them while they're driving."
Indeed, in a recent study by Gartner, approximately 5 percent of surveyed drivers said they would "definitely" want such technologies on their next vehicles. Another 15 percent described themselves as "likely" to want the health and wellness capabilities. Think about it: If US vehicle sales amount to 15 million a year, it could mean that as many as 3 million of these systems will be adopted by consumers.
All of this points back to the advantages of the new model. Automakers can expend less design energy on new ideas and move more quickly on trends that are bubbling to the surface. All they have to do is put the platform in place to interface with the new technologies. If the ideas don't pan out, the automakers can move on without great loss. Most important, engineering teams aren't forced to invest tens of thousands of hours on a prediction of a distant future that virtually no one can see.
"It goes back to what we've been saying," Koslowski says. "The automobile is the ultimate mobile device platform. And now companies are realizing that there are ways to leverage that platform and extend their service offerings."
There's lots of health related data that one could collect while driving related to the driver's ability to control the vehicle and the status of everyone in range who happens to have a wireless/blue tooth adapter. Whatever data is available could be transferred more effectively to a smart phone (and disseminated from there) than from the car – The cell phone could then talk to the car (as the phones “BIG” user interface) to warn the occupants, along with calling one’s doctors family and emergency people listed in the phone as first responders.Note that the cell phone/smart phone is a more general solution, and it is a lot less expensive than a car and more easily “carried” around with the user.
Driver alertness, pulse rate, blood pressure, and many other things may be more important than changes in glucose when detecting the fitness of the driver. Drug conditions… electronic bracelet activities and other tings may also be of more importance…
Glucose monitor:For continuous glucose monitoring one must have a meter that does not interrupt or the distract the drivers concentration from driving! this implies a meter that does not require a pin prick and manual dexterity to place a sample in a receptacle ect.
By the way, Alertness can effect glucose levels-- while fasting I personally watched my glucose drop 10 points per hour in my office (110, 100, 90) then drove home and found it back at up 110--presumably due to getting up from my desk and the increased concentration to pay attention to my driving. note: I am not I diabetic but I was testing glucose meters for Medisense...
On privacy ... if the data is available on blue tooth or other wireless connection, it needs security. Maybe you want to police or people in the next car, or first responders to know your condition. However, maybe you don’t want everyone who can read your data stream to have access… and know your weaknesses ….
There's lots of health related data that one could collect while driving related to the driver's ability to control the vehicle and the status of everyone in range who happens to have a wireless/blue tooth adapter. Whatever data is available could be transferred more effectively to a smart phone (and disseminated from there) than from the car – The cell phone could then talk to the car (as the phones “BIG” user interface) to warn the occupants, along with calling one’s doctors family and emergency people listed in the phone as first responders.Note that the cell phone/smart phone is a more general solution, and it is a lot less expensive than a car and more easily “carried” around with the user.
Driver alertness, pulse rate, blood pressure, and many other things may be more important than changes in glucose when detecting the fitness of the driver. Drug conditions… electronic bracelet activities and other tings may also be of more importance…
Glucose monitor:For continuous glucose monitoring one must have a meter that does not interrupt or the distract the drivers concentration from driving! this implies a meter that does not require a pin prick and manual dexterity to place a sample in a receptacle ect.
By the way, Alertness can effect glucose levels-- while fasting I personally watched my glucose drop 10 points per hour in my office (110, 100, 90) then drove home and found it back at up 110--presumably due to getting up from my desk and increased concentration to pay attention to driving. note: I am not I diabetic but I was testing glucose meters for Medisense...
On privacy ... if the data is available on blue tooth or other wireless connection, it needs security. Maybe you want to police or people in the next car, or first responders to know your condition. However, maybe you don’t want everyone who can read your data stream to have access… and know your weaknesses ….
xx
There's lots of health related data that one could collect while driving related to the driver's ability to control the vehicle and the status of everyone in range who happens to have a wireless/blue tooth adapter. Whatever data is available could be transferred more effectively to a smart phone (and disseminated from there) than from the car – The cell phone could then talk to the car (as the phones “BIG” user interface) to warn the occupants, along with calling one’s doctors family and emergency people listed in the phone as first responders.Note that the cell phone/smart phone is a more general solution, and it is a lot less expensive than a car and more easily “carried” around with the user.
Driver alertness, pulse rate, blood pressure, and many other things may be more important than changes in glucose when detecting the fitness of the driver. Drug conditions… electronic bracelet activities and other tings may also be of more importance…
Glucose monitor:For continuous glucose monitoring one must have a meter that does not interrupt or the distract the drivers concentration from driving! this implies a meter that does not require a pin prick and manual dexterity to place a sample in a receptacle ect.
By the way, Alertness can effect glucose levels-- while fasting I personally watched my glucose drop 10 points per hour in my office (110, 100, 90) then drove home and found it back at up 110--presumably due to getting up from my desk and increased concentration to pay attention to driving. note: I am not I diabetic but I was testing glucose meters for Medisense...
On privacy ... if the data is available on blue tooth or other wireless connection, it needs security. Maybe you want to police or people in the next car, or first responders to know your condition. However, maybe you don’t want everyone who can read your data stream to have access… and know your weaknesses ….
Thanks David - you are 100% right, a simple text to a parental phone at predetermined nearing danger levels would be priceless especially during the school day. Let me know whne you have the app done! - Henry
@HJL, I mised that idea, but it would be a great concept, not only for the car, but to pop up on your home network and to send a text message to a parental phone. They might have the kids in the back yard, at the park, or in the movie. I like this concept better and better. Now, if it were only available. I bet there will be an app for that before too long.
My daughter was diagnosed at 5, have friends with 2 year old diabetics. Having the ability to see her numbers on screen while driving would be priceless.
I'm still not sold on the idea of needing the system in my car. I AM a lot more interested in seeing such a system developed that kept diabetes or any other medication issue from being so consuming. As it stands now, I write write the time, glucose reading, oral medication, and insulin in my planner. Yes, I now that a paper planned certifies me as a dinosaur, but otherwise, if I become involved in a project, a video production runs into overtime, or I simply sit down and become engrossed in a novel. . .I might forget my pill or eat at 7 instead of 5:30. An automatic system that can monitor glucose levels and adjust infusion accordingly would be such a relief. It could also work with seizure medications, blood pressure alerts, and various other medical events. The fact that it could interface with the car via bluetooth is merely a convenience. If the system did that, it could also pop up a display on my computer screen or use my cell to notify someone that I had passed out and give a location ia the GPS capability. There in lies the value of such a system. I don't see it switching Chevy drivers to Ford. (My little Monza took care of that for me.)
Jack: The point is that it isn't a lot of trouble for Ford to integrate into the vehicle. Ford isn't using the old model -- whereby they do all the design work. I don't want to minimize what Ford engineers did, but it's not a huge task for them. The cost benefit ratio is in Ford's favor, especially if a million customers, such as David, decide they want to buy a Ford as a result.
Good points, but I have to consider that whether or not this technology ends up in the automotobile control system, the development of that technology is significant to those of us who are diabetic. Even without shwingthe information on the car;s dashboard, how wonderful it would be if we had aa device that could sense our glucose levels and adjust the automatic infusion of insulin accordingly. As it is now. we eat, we guess how many units we need, we hope we are right, and if someone put too much sugar into something, these cauculations are rendered useless, This requires retesting, re-medicating, and. .. it is endless. I have to say I don't need it in my car, but I'd l;ove to have it in my life.
Lauren & Charles, I understand what you're saying, but I still fail to see the point of car integration. If a person (passenger or drive) has a medical condition that requires constant monitoring, it would need to be connected with the ability to alarm at all times - such as wherever they are traveling to. A DVD player (for instance) is only needed to provide entertainment on the road.
You're exactly right, Lauren. If a child in the backseat -- or anyone in the vehicle -- has unsafe blood sugar levels, the glucose monitor can alert the driver though Ford Sync.
Everyone is focused on the driver being distracted by having this monitoring system, but maybe this is something that could expand to help the passenger. If the passenger needs constant glucose monitoring and the car alerts the driver, the driver could safely pull over and help or take them to a nearby hospital. I like all the new infotainment going into cars and think most of the applications are geared on driving safer.
With LEDs dropping in price virtually every year, automakers have begun employing them, not only on luxury vehicles, but on entry-level models, as well.
Using almost 200 light-emitting diodes in the front and back of the new 2014 CTS, Cadillac designers are showing how LEDs can change the character of a vehicle.
We recently posted an online slideshow called, “18 People You Didn’t Know Were Engineers.” Within hours of its publication, readers began to suggest names of other luminaries -- astronauts, politicians, athletes and actors -- who were educated or had worked as engineers.
In yet another sign that hydrogen is creeping into the consciousness of global automotive designers, sports car maker Aston Martin plans to run a hydrogen-fueled vehicle in a 24-hour Grand Touring race later this month.
From Dell / Intel® New Paradigms in Design Work Scott Hamilton, vertical market strategist for Dell Precision workstations, 5/2/2013 3
Early in my career, I worked as a draftsman and remember the days of drawing on vellum with numbered pencils and Mylar with plastic lead. This was a fun experience in the sense that I ...
I've been using workstations for more than 10 years and love finding ways to get more performance from my system. With demanding professional applications that require more power each ...
A lasting memory from my first job as an engineer in an auto assembly plant is standing on hard concrete at six in the morning, vending-machine coffee clutched in hand, listening to ...
A quick look into the merger of two powerhouse 3D printing OEMs and the new leader in rapid prototyping solutions, Stratasys. The industrial revolution is now led by 3D printing and engineers are given the opportunity to fully maximize their design capabilities, reduce their time-to-market and functionally test prototypes cheaper, faster and easier. Bruce Bradshaw, Director of Marketing in North America, will explore the large product offering and variety of materials that will help CAD designers articulate their product design with actual, physical prototypes. This broadcast will dive deep into technical information including application specific stories from real world customers and their experiences with 3D printing. 3D Printing is
To save this item to your list of favorite Design News content so you can find it later in your Profile page, click the "Save It" button next to the item.
If you found this interesting or useful, please use the links to the services below to share it with other readers. You will need a free account with each service to share an item via that service.
Tweet This
2 
