Tuesday, May 9, 2017

Blog 18: Where is Self-Tracking Going

The final two chapters of Self-Tracking by Neff and Nafus provide a porthole into which we can view the possible future of self tracking and its future applications. It seems like one thing is for certain, there are more questions than answers when it comes to the usefulness of self tracking in the healthcare field because self tracking technologies are evolving faster than they are.

Healthcare fields aren't exactly taking self tracking applications and devices seriously, and they have a reason to be wary. Neff and Nafus gave a small example of this when they gave the story of app uChek being removed because it failed to meet the FDAs regulatory criteria. An ethical issue within the self tracking world is the collection of data from users and who it belongs to. Does it belong to the user who partook in the physical actions, or does it belong to the company that provided the means to collect the data? This ethical dilemma showed its ugly head when Hugo Campus had to legally fight for access to data collected by his own defibrillator.

If events such as the one that Hugo Campus endured continue to pop up, it could spell for a very grim future regarding self tracking.

Works Cited:
Neff, Gina, and Dawn Nafus. Self-Tracking. Cambridge: MIT, 2016.
Print.

Blog 17: Who Are Self Trackers

The third and fourth chapter of Self-Tracking dive past the crust of self-tracking technology into the mantle of the actual users of the technology. The question for these chapters is: what makes these people tick? What's the allure of joining the self-tracking community?

There is a definite psychological satisfaction when self-tracking, and the reasons behind the satisfaction may differ greatly from person to person. The reasons range from curiosity to education to motivation. Self-tracking can teach a person a lot about themselves, and knowing all of your physical activity statistics can be a real motivator towards continuing to strive for physical goals. Another ideology brought forth was "exosensing", or the use of sensors and equipment to enhance a persons sense of certain bodily functions. I'm curious as to how much truth is behind this idea, or if it may just be a placebo effect on people a little too convinced they've achieved another sense.

Works Cited:
Neff, Gina, and Dawn Nafus. Self-Tracking. Cambridge: MIT, 2016.
Print.

Blog 16: Self-Tracking

Gina Neff and Dawn Nafus explore the recently rising social phenomenon of self tracking and analyzing how it impacts peoples' daily lives.

It's important to note that the self tracking in this book refers to the self tracking done on technology. Self tracking in a looser sense has existed for a long time. People have always been able to track their daily actions on pen and paper, but it's the digital methods that Neff and Nafus are interested in. It's interesting because the correlation between self tracking and self discovery are noticeable, and self tracking may even help some people find self motivation.

Aside from self discovery, what could self tracking be good for? Well, it turns out that self tracking could potentially be helpful for use in the medical field. The only issue is the consistency and accuracy of information one tracks about themselves versus what the medical field can find out about you using their methods.

Works Cited:
Neff, Gina, and Dawn Nafus. Self-Tracking. Cambridge: MIT, 2016.
Print.

Blog 15: The IoT in Real Life

The last chapter of Greengards leaves us with more of a question than an answer. Where does the IoT go from here? The applications for the IoT are infinite, as long as more companies come into existence there will always be opportunity to optimize with technology. Also, the IoT's applications aren't at all limited to the industrial. As of late, the IoT has been steadily creeping into the everyday lives of people like you and I.

Greengard concludes his book with areas where he believes the IoT would really flourish. One of these areas was transportation, and the application really shows why. Every year there are nearly 1 million traffic fatalities. Incorporating the IoT into the transportation system could cut this number by a significant fraction. Self-driving cars that are able to communicate to each other over the Internet have a lot of potential to prevent crashes due to human error. The issue with self-driving cars, however, are the rare incidents when computers would have to make decisions on how to react. This means that there could possibly be scenario in which every outcome involves someone getting injured. In that case, how would the computer choose what action to take?


Works Cited
Greengard, Samuel. The Internet of Things. Chaparral:
Massachusetts Institute of Technology, 2015. Print.

Blog 14: The IoT in the Workplace

In chapter five of six of Greengard's book a question arises. How would the IoT be integrated into systems of the present and future? I touched upon that briefly in the last blog post but Greengard goes into more detail in chapters after.

Most of the book focuses on scenarios that the IoT would excel in, but these chapters switch focus to scenarios in which they would not. They highlight some potential issues in standardization and safety. Greengard states that one of the biggest challenges for IoT would be building a foundation that would be able to support such a large and intricate group of machines. Some companies may have the funds to incorporate the IoT into their workplace, but many companies simply don't have the means to make the big leap into the next era of machine-driven industrialization. So what does that mean for these companies? Will they just be left in the dust?

Most likely not. Greengard points out the steadily decreasing costs of systems such as the RFID tags. As these systems become more mainstream, availability at a more affordable cost becomes less rare.

Works Cited
Greengard, Samuel. The Internet of Things. Chaparral:
Massachusetts Institute of Technology, 2015. Print.

Blog 13: The Future of IoT

IoT, or the Internet of Things as explained by Samuel Greengard, have incredible projections in the future in terms of quality of life due to technology. Improvement in the quality of home life, and especially improvement in the industrial world using these new technologies. 

One example of improvement in the industrial world due to IoT that Greengard provides is the utilization of RFID sensors in truck fleets and pallets to improve distribution time management. This is just a single example of the incorporation of IoT in the industrial world, but the applications are plenty in the field. 

One drawback of the rise of IoT would be the time and cost of implementing such a system within a company. Creating the physical RFID tags introduce a new cost, and the installation of said tags into all trucks and pallets are a headache in of their own. Not to mention the software that is needed to manage all of the tags. 

Works Cited
Greengard, Samuel. The Internet of Things. Chaparral:
Massachusetts Institute of Technology, 2015. Print.

Blog 12: Internet of Things

The first couple of chapters of Samuel Greengard's The Internet of Things paints the network of interdependent technology that society itself has become dependent on. Technology that were once separate, let's say watches and computers, have now become able to communicate to one another using Internet connection as a medium

What kind of repercussions could this new interconnectedness bring upon the new age? Greengard says that it was the physical features of past technologies that would limit capabilities. In the new digital era, the ability to access the Internet on devices unlocks capabilities on technology that were previously very specific. Watches used to check time, now they can check email.

Along with bringing more capabilities to old but revamped technology, the issue of security becomes a hot topic. Like a door on a house, the ability to exit also grants the ability to enter, and malicious users have targeted devices as a way to gather information that doesn't belong to them.

Works Cited
Greengard, Samuel. The Internet of Things. Chaparral:
Massachusetts Institute of Technology, 2015. Print.