Mobile Technology : Powering Forward
Last year I wrote a series of blogs concerning the Internet of Things(IoT). In that series I layed out what the IoT is and some ideas for what IoT may become. As incredible and impactful as the IoT is there is something holding it back even today- power! More specifically, I’m talking the ability to take electrical power with you, aka the battery. Crazy, no? The battery is a common enough and relatively simple device. How on earth could this be holding technology back? The problem lies with the fact that batteries are old technology. The lithium-ion battery(LIB) is the type of battery that powers most mobile devices today. For those of us who have used a smartphone or smart wearable we know all too well the troubles of ‘low battery’. LIBs were invented in the 1970’s- that’s almost 50 years ago! It may not seem like a long time, but when you consider the rapid pace at which technology changes today, it’s ages ago. According to Moore’s law, integrated circuitry will double in performance every 18 months, and that has held reasonably true since he postulated it in the 1960’s. Batteries have improved in that time but they simply have not kept pace. Another area of technology that demonstrates this fact is the electric car industry. All but a few of the best fully electric cars struggle to range above 200 miles. There are a few that break this rule but the two that really stick out, with ranges at or above 300 miles are both made by Tesla. Of course, getting this kind of range out of an electric car comes with a high price tag. The X starts at $85,500 and goes up from there. The S, with the longest range, starts at $68,000. These cars are loaded with premium options but one of the biggest costs is giving it a longer range. That requires upgrading the battery package on the vehicle which significantly increases the price. In software development, as in the development of all technology, there are always constraints. Memory, storage, processing power, and many other factors must be considered when designing and implementing any software solution. When it comes to development for software that runs on a mobile device, power consumption is always a very real concern. In technology there are few areas that have to consider power consumption more than the IoT and embedded systems. At this level, the quality and efficiency of the code makes a difference in every milliwatt used. At Metova we pride ourself on providing the best software solutions to our customers. This includes understanding the constraints of the platforms our software will be executed on.
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IoT: Risks and Dangers
Is my Stuff More Dangerous Now?
With technology growing at a mind-blowing pace, connecting devices to the internet and each other was the next obvious step. The Internet of Things (IoT) has changed the way we live and interact with our devices. Alongside the benefits are some real dangers we face as a result of this technology.
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IoT: Imagine The Possibilities
What can all my stuff do?
In my first blog on the Internet of Things (IoT) I discussed what it was and gave a few examples of how it works. In this blog I will discuss a few new ideas that surround what the Internet of Things can do for us. I will also talk about how the IoT is changing the way we interact with devices that are decades, or more, old.
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IoT: The Next Step in Innovation
What have you done to all my stuff...
A brief review of the development of civilization can give us a pretty clear picture of the inventions and innovations that have irrevocably altered the way we live. Things like when we first harnessed the power of fire and first planted crops, to the development of the printing press, the steam engine, the electric light bulb and so on have so changed the way most of us live that they stand out clearly in the annals of human existence. These changes, however, came very slowly over hundreds of years.
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Unit Test Your Communication
I often read great blog posts about good ways to communicate, but articles about knowing if or when you are communicating poorly are harder to come by. I’d like to talk about ways to identify and improve poor communication, from the perspective of the ‘unit test’.
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