An article about the invention of information theory in Nautilus. Excerpt: 

Information was something guessed at rather than spoken of, something implied in a dozen ways before it was finally tied down. Information was a presence offstage. It was there in the studies of the physiologist Hermann von Helmholtz, who, electrifying frog muscles, first timed the speed of messages in animal nerves just as Thomson was timing the speed of messages in wires. It was there in the work of physicists like Rudolf Clausius and Ludwig Boltzmann, who were pioneering ways to quantify disorder—entropy—little suspecting that information might one day be quantified in the same way. Above all, information was in the networks that descended in part from the first attempt to bridge the Atlantic with underwater cables. In the attack on the practical engineering problems of connecting Points A and B—what is the smallest number of wires we need to string up to handle a day’s load of messages? how do we encrypt a top-secret telephone call?—the properties of information itself, in general, were gradually uncovered. [...]

Each year that Shannon placed a call, he was less likely to speak to a human operator and more likely to have his call placed by machine, by one of the automated switchboards that Bell Labs grandly called a “mechanical brain.” In the process of assembling and refining these sprawling machines, Shannon’s generation of scientists came to understand information in much the same way that an earlier generation of scientists came to understand heat in the process of building steam engines. [...]

Where Nyquist used the vague concept of “intelligence” and Hartley struggled to explain the value of discarding the psychological and semantic, Shannon took it for granted that meaning could be ignored. In the same way, he readily accepted that information measures freedom of choice: What makes messages interesting is that they are “selected from a set of possible messages.” It would satisfy our intuitions, he agreed, if we stipulated that the amount of information on two punch cards doubled (rather than squared) the amount of information on one, or that two electronic channels could carry twice the information of one.That was Shannon’s debt. What he did next demonstrated his ambition. Every system of communication—not just the ones existing in 1948, not just the ones made by human hands, but every system conceivable—could be reduced to a radically simple essence.

• The information source produces a message. • The transmitter encodes the message into a form capable of being sent as a signal. • The channel is the medium through which the signal passes. • The noise source represents the distortions and corruptions that afflict the signal on its way to the receiver. • The receiver decodes the message, reversing the action of the transmitter. • The destination is the recipient of the message.

The beauty of this stripped-down model is that it applies universally. It is a story that messages cannot help but play out—human messages, messages in circuits, messages in the neurons, messages in the blood. You speak into a phone (source); the phone encodes the sound pressure of your voice into an electrical signal (transmitter); the signal passes into a wire (channel); a signal in a nearby wire interferes with it (noise); the signal is decoded back into sound (receiver); the sound reaches the ear at the other end (destination).

In one of your cells, a strand of your DNA contains the instructions to build a protein (source); the instructions are encoded in a strand of messenger RNA (transmitter); the messenger RNA carries the code to your cell’s sites of protein synthesis (channel); one of the “letters” in the RNA code is randomly switched in a “point mutation” (noise); each three-“letter” code is translated into an amino acid, protein’s building block (receiver); the amino acids are bound into a protein chain, and the DNA’s instructions have been carried out (destination).

Those six boxes are flexible enough to apply even to the messages the world had not yet conceived of—messages for which Shannon was, here, preparing the way. They encompass human voices as electromagnetic waves that bounce off satellites and the ceaseless digital churn of the Internet. They pertain just as well to the codes written into DNA. Although the molecule’s discovery was still five years in the future, Shannon was arguably the first to conceive of our genes as information bearers, an imaginative leap that erased the border between mechanical, electronic, and biological messages.

First, though, Shannon saw that information science had still failed to pin down something crucial about information: its probabilistic nature. When Nyquist and Hartley defined it as a choice from a set of symbols, they assumed that each choice from the set would be equally probable, and would be independent of all the symbols chosen previously. It’s true, Shannon countered, that some choices are like this. But only some. For instance, a fair coin has a 50-50 chance of landing heads or tails. This simplest choice possible—heads or tails, yes or no, 1 or zero—is the most basic message that can exist. [...]

The new unit of Shannon’s science was to represent this basic situation of choice. Because it was a choice of 0 or 1, it was a “binary digit.” In one of the only pieces of collaboration Shannon allowed on the entire project, he put it to a lunchroom table of his Bell Labs colleagues to come up with a snappier name. Binit and bigit were weighed and rejected, but the winning proposal was laid down by John Tukey, a Princeton professor working at Bell. Bit.

Are you ever just sitting there are out of nowhere you’re hit by the realization of what a cool thing communication is and how fascinating it is to see how we adapt to using digital tools?

On Facebook, for example, think of the simple “like” button. In my completely unscientific study, it can be used to:

Indicate approval or enjoyment (“I like this post.”)

Indicate emotional support (“I am sorry you feel this way.” Emotional reaction buttons can now also do this.)

Show that you saw a post (“I acknowledge that you tagged me in this.”)

Passively share a post with friends (“I don’t want to actually share this post, but if I like it then some of my friends will see it in their feeds.”)

Say thank you without getting into a conversation (“Thank you for wishing me happy birthday.”)

Acknowledge the last comment in a conversation with adding words and obligating the other person to continue (“I see your comment and am not ignoring you, but have nothing else to add.”)

On the 14th of August, we had another task assigned to us by our instructor. This time, we had create a Video Essay about the History of Computer-Mediated Communication (CMC).

We had a lot of fun making this video essay and we hope you too could have some fun as you watch what we made. Enjoy!

On August 5th, our instructor in ELS 57 gave us our very first task for the semester.

Photo: Eliseu Geisler / Shutterstock.com (Shutterstock) Phone numbers are a finite resource. So when one goes out of a service, there’s a good chance telecom companies will reuse it for a new phone plan. That can be a big problem on WhatsApp. In some cases, if you get your hands on a phone number that was tied to an existing WhatsApp account, you can hijack it and assume that users’ identity,…

     The use of technology for communicating in protests provides a larger reach to audiences resulting in immediate reactions and responses. Before the industrial revolution, information would take too long to reach audiences. Communication became more reliable with the inventions of the telegraph and the telephone, allowing for reliable, faster communication. But today, at the speed of internet, we connect to millions on various platforms. With hashtags, activists can protest on the internet more successfully than in the streets.

     Postmes and Brunsting (2002) mentions, “Internet has given rise to protests with the increase of activist websites” (p. 292). Black Lives Matter started as a hashtag and developed into a movement increasing activism through its website.

     BLM is a cry for justice for innocent minorities killed while authorities either looked away or were the cause. The focus was to end it. As the hashtag progressed, more citizens attached it to social injustices throughout the country, invoking the media and expanding to social media platforms of celebrities and businesses. Postmes and Brunsting (2002) states, “media coverage of online activism focused on the internet’s role in newsworthy incidents”. It may be apart of a larger agenda, as the hashtags originally were for fast searches of topics. Perrin (2020) states, “Roughly a quarter (23%) of adult social media users in the United States – and 17% of adults overall – say they have changed their views about a political or social issue because of something they saw on social media in the past year, according to a July Pew Research Center survey” (para. 1). With so many people searching for this topic, many sites, affiliated posts, and supporters are available. It is hard not to listen when the same message is delivered everywhere in every media outlet.

     The collective action was first reported on Facebook, where activists used hashtags to spread the injustice of Trayvon Martin and posts appeared on Twitter about thirty times a day (Anderson, 2016). The posts and the movements accelerated in 2014 when Michael Brown was fatally shot by a police officer in Missouri (Anderson, 2016). The New York Times reported BLM as “The largest movement in U.S. history” (Buchanan et. al, 2020). Reports in news broadcasting, such as ABC, represent only the facts in the case, disclosing information of events, where the social media posts were more heartfelt or invoked outrage.

      In my busy life, it is more convenient to have my news on the go. I rely heavily on Google News updates that direct me to articles on Yahoo, ABC, and other news outlets. Twitter notifications alert on my phone of any breaking news. My commute to work is less than five minutes, so radio conversations that prolong events in a story get missed. At home, I rarely have time to watch television, but I do occasionally Netflix. Without cable I do not have access to local news.

     Something to consider from the shift of previous methods of communicating to today’s use of CMC, is we decide what we want to view or read. We can select news stories we are interested in. We no longer have a certain place at a standard time to receive any news. News notifications blare from mobile devices at all hours. Our generation has had the opportunity to advance to receiving information at any time. Older generations can remember spending more time at home with family and waiting for the news or even remembering others’ phone numbers because they only needed seven digits. Events occurring in the community were known from word of mouth.

     Mobile technology has improved my consumption of news. Before social media developed, I was at the mercy of news from newspapers, which were on a decline, and television, when I had no cable. I pay no additional fee and I receive information on command.

     Postmes and Brunsting (2002) argue, “Early social psychological theorizing has argued CMC reduces social cues and undermines the social and normative influences on individuals or groups—making Internet an individualistic environment” (p. 294). Interactions are reduced from the need to communicate verbally as preference is to use devices and there becomes more reliance on CMC. CMC acts as a crutch to our society’s form of communicating and must be monitored so as not to weaken our communication structure.

References

Anderson, M. (2016, August 15). 3. The hashtag #BlackLivesMatter emerges: Social activism on Twitter. Pew Research Center. Retrieved December 13, 2021, from https://www.pewresearch.org/internet/2016/08/15/the-hashtag-blacklivesmatter-emerges-social-activism-on-twitter/

Buchanan, L., Bui, Q., Patel, J. (2020, July 3). Black Lives Matter may be the largest movement in U.S. history. The New York Times. Retrieved December 13, 2021, from https://www.nytimes.com/interactive/2020/07/03/us/george-floyd-protests-crowd-size.html

Perrin, A. (2020, October 15). 23% Of users in U.S. say social media led them to change views on an issue; some cite Black Lives Matter. Pew Research Center. Retrieved December 13, 2021, from https://www.pewresearch.org/fact-tank/2020/10/15/23-of-users-in-us-say-social-media-led-them-to-change-views-on-issue-some-cite-black-lives-matter/

Computer-Mediated Communication

What is it? Van Der Heide et al. (2009) says it is ”Computer-mediated communication is the domain of human communication in which individuals and groups interact, form impressions, establish relationships, and accomplish tasks using networked computers” while Holmes (2009) says it is, “In the broadest sense, computer-mediated communication (CMC) can be any form of communication that is mediated by digital technology”.  From both definitions, we can conclude that it is a way to communicate to build and maintain relationships using computer technology.

Daily CMC Use

I am a repeat offender of using CMC as I use my cellphone, a hub for all of my social media apps, check emails regularly, and send/receive seemingly thousands of text messages in a day. For school I log in and post to a discussion board, respond to other students’ posts, enter into chat rooms with group members, then send and receive emails to my classmates and instructors. My laptop is linked to my cellphone, with my apps, contacts, photos, emails, and school access, so I have full access to any of my media at any time. I use a Google Assistant on my phone as well as have a GoogleMini. I ask questions regarding my daily routine, the weather, to read bedtime stories to my little one, and random things that I want to know the answer to.

Does too much CMC Enhance a sense of Community?

Is too much of anything ever really any good? Taken with moderation, CMC most certainly can enhance a sense of community. It helps to connect individuals far and wide, in real-time. I have family and friends that are states away from me and CMC helps me to stay in contact with them within a matter of moments. I can share photos and memories across social media platforms or wish someone a happy birthday through a text message. Group projects that I must work on with team members who reside in different time zones becomes less difficult with CMC as we are offered a multitudinous selection from our school’s intranet, chat rooms, group texts, zoom meetings, and more. Without social media platforms like Facebook, Messenger, Skype, or Google Duo, I would be unable to video call friends and family. I can also join groups of people who enjoy the same interests and hobbies as I do. Networking with potential work associates becomes something that would not have been possible were it not for LinkedIn and other work-related social media platforms.

Privacy Challenges

In the digital age, there is the lingering question of is ‘Big Brother’ watching our every move. Our recent generation shares everything, even ideas that may before would have been kept more discreet. But the sharing helps others learn and grow. Van Dijk (2012) mentions, “The biggest minus of the present design of the new media is the low capacity for privacy protection that they offer” (p.30). In face-to-face interactions we can protect ourselves or others, but other media offers limited protection as host sites and centres are registering data and using it in a data collecting system, whether it has been approved or not. The collected data is helpful when it relates to me asking my GoogleMini questions or to someone who is looking for specific products. The data collected also helps to improve the speed of information (Van Dijk, 2012). Larger companies and universities may place restrictions on devices, which help keep individuals focused and task oriented. This helps to avoid the time thief of scrolling aimlessly on social media or playing time consuming games, that can be addictive and decrease your productivity.

Positive Examples of CMC in the Future

Advancements in technology will provide CMC with the means to improve in the years to come. CMC is a contributing factor in globalization as “the rapidly rising success of communication technology has made it easier to communicate socially and academically” (Norris, 2012). There are improvements made for businesses to communicate on an intercontinental level (Norris, 2012). It is convenient and provides flexibility socially and academically. We are able to increase communications across the globe to improve our connections, which will undoubtedly create a more harmonious future.

End Thoughts: CMC Effects on Face-to-Face

I believe that CMC has had a positive influence on my F-t-F communications. It adds a layer to the communication I have between friends, work associates, classmates, and family members. A simple message I could be relaying to a friend might have a few holes in it and could be confusing. With CMC technologies, I could refer to any information relative to my message, reinforcing my point. Work related conversations too, can be supported with evidence that is stored within previous CMC, as it is stored indefinitely. The CMC works well in my favor.

 References:

Holmes, D. (2009). Computer-mediated communication. Encyclopedia of Communication, p. 162-165

Norris, A. (2012). Computer-Mediated Communication and Globalization: Considering social, academic, and business factors. Inquiries Journal, 4(2), p.1. Retrieved on November 29, 2021, from http://www.inquiriesjournal.com/articles/617/computer-mediated-communication-and-globalization-considering-social-academic-and-business-factors

Van Dijk, J. (2012). The network society (3rd ed.). Thousand Oaks, CA: Sage.