Technology is ‘The Other’ with whom Humans Engage the most

The Contemporary Media Environment (CME) is the current situation of the widespread connected world of computing, which features the pervasive presence of technology in an increasingly rich information environment between and amongst human and machine entities.

One aspect of the CME is the increasing emergence of technology as ‘the other’ in the human-technology relation. Humans are now in a wholly new conceptualization and interaction with technology, and also information, where non-human entities are the primary other party in the majority of interactions (Floridi 2014). Technology is ‘the other’ with whom humans are engaging the most.

The theme of the ‘technology other’ has often been explored in film, with the increasing trend of humans and technology being portrayed in full partnership, for example in Big Hero 6 (2014), Her (2013), and Robot & Frank (2012).

Another way that the CME is manifesting the technology other is through embodiment, and in an escalation in the forms and types of human interaction. The technology other is no longer conceived narrowly as Amazon and Netflix recommendations, but instead as a fully-embodied agent. An example of this is robotic personal assistants for home and work like Robotbase’s Personal Robot, MIT’s JIBO, and Amazon’s Echo. Likewise artificial companions, for a variety of functional interaction with humans, may be the next innovation.

A sense of embodiment might also be perceived with advanced voice assistants like Apple’s Siri, Google Now, and Microsoft’s Cortana; they are a new kind of object-person.

Even beyond technology-as-other is technology-as-partner: the best ‘worker’ for many contemporary jobs in the automation economy, perhaps soon to be the machine economy, is a human and a machine in collaboration (Cowen 2013, Carr 2014).

Advances in robotics

Robotics can be defined as the integration of sensors, computation, and machine systems to manipulate matter. Some of the most important current applications are in military use, factory automation, telepresence, entertainment, and human interaction. Some contemporary trends include bipedal robots, autonomous robotics, and swarm computing. Walking, instead of navigating around on wheeled or multi-legged bases, could open up a variety of new applications for robotics. Similarly, autonomous robotics could handle tasks at a higher level of abstraction with less of a control burden. Swarm computing could allow the efforts of multiple robots to be coordinated, for example in warehouse automation or RoboCup soccer.

Military robotics
The U.S. military’s current deployment of robots includes 7,000 unmanned aerial vehicles (UAVs) such as the Predator drone and 12,000 unmanned ground vehicles (UGVs) such as the PackBot (P.W. Singer, Wired for War). Boston Dynamics has developed several interesting robots for military use. One is the BigDog, a quadruped robot that can walk, run and climb on rough terrain and carry heavy loads. More recently, the company has been working on the PEDMAN bipedal robot which balances dynamically using a human-like walking motion and is to be used initially for testing chemical protection clothing by walking and climbing like a human. Another example of military robotics is the DARPA Grand Challenge, where there have been three rounds of competition for unmanned navigation vehicles, lastly in an urban environment.

Industrial robotics
A second important area is industrial robotics, extending automated machines by making them mobile. One leader in mobile robotic solutions for warehouse automation is Kiva Systems who uses robots to organize, manage and move inventory. The robots cooperate using swarm behavior by reading barcodes on the floor and other messaging systems. There are other examples of robots for potential use in corporate or health care environments. Willow Garage’s PR2 (Personal Robot 2) can autonomously open doors and locate and plug itself in to power outlets. AnyBots offers a corporate telepresence robot and a bipedal robot under development.

Personal robotics
There is also a research focus on creating robots with emotional intelligence for human interaction. Two notable examples are MIT’s Personal Robots Group and Hanson Robotics. MIT has robots such as Leonardo which has 50 independently controlled servo motors creating a full range of facial expressions. Hanson Robotics’ Zeno and other robots which have life-like skin created from frubber, a nanoporous materials advance in elastic polymers. For consumer use, robots are starting as small appliances such as the Roomba and Neato Robotics unit for home vacuuming and the Rovio for home security, and toys such as the Furby, Aibo, and Kondo.