EMERGING CONCEPTS: Autobots

The trend in robotics research surrounds creating autonomous and life-like robots for human needs. Breazel and Scasselati (2002) believe that these machines should be able to “acquire new knowledge autonomously and become increasingly more complex and capable with the assistance of a person” (Breazeal & Scasselati 2002, p. 481). The benefits of such technology could mean exploration and searching in rescue operations is possible (Basilica & Amigoni 2011), or keeping track of moving objects or people using radio (Hollinger et al. 2011). However, autonomous robots have a negative social response encouraged by movies like Transformers and Wall-E, which show robotic technology taking over earth.

One of the areas of autonomous robotic development is in swarm robots, a system of robots which reorganise their spatial configuration to address a certain problem. These robots have the potential to work alongside rescue operations teams to locate people, retrieve bodies and even heal wounded humans in collapsed buildings. Correll and Grob (2010) recognise that these “Swarm-intelligent systems are common throughout nature” (Correll & Grob 2010, p. 785) and people are trying to emulate these to serve human problems. This video shows the trialling of swarm robots on moving a human child, which is one of the ways to test if using swarm robots in emergency situations is viable. The robots are seen to connect themselves together to move this child across the floor.

As much as this technology has the potential to be helpful in dire and dangerous situations, they also have the potential to become extremely dangerous themselves, reflecting the ideas of Kling et al. (2005) and Sawyer and Eschenfelder (2002). They believe that technological have endless adverse effects that are unpredictable and wide-spreading. This emphasises the importance of the social informatics field to contain and predict the social effects of and on technology.

8 months ago 

NOT SO CLEVER-BOT

With machines being so fundamental to human development, it is natural that engineers and scientists have tried to reflect human qualities through a machine. Research in artificial intelligence has focused on creating robots that can “acquire new knowledge autonomously and become increasingly more complex and capable” (Breazeal & Scasselati 2002, p. 481). In Breazeal and Scasselati’s (2002) study of social learning in robots, they note that there is a large commercial interest in robot development for use “by ordinary people in their homes, their workplaces, and in public spaces, such as hospitals and museums…” (Breazeal & Scasselati 2002, p. 481). Evidently, the social implications of developing human-imitating robots would be profound if it were successful in the future.

One of the latest advances in the robotics world witnessed a conversation between two ‘Cleverbots’. Regarded as one of the best attempts by researchers to mimic human interaction, the experiment by Cornell’s Creative Machines Lab shows great potential for robots to acquire new knowledge and interact like humans would naturally.

Human robots are a great example of how technology is directly inspired by human social interactions. This example in particular reflects the advancement in robotic research to create autonomously-running robot interaction. It legitimises claims that robots have a stake in human future, and as Breazeal and Scasselati (2002) predict, if these experiments become successful, they will definitely play a large role in all sectors of human life. 

8 months ago 

EMERGING CONCEPTS: Autobots

The trend in robotics research surrounds creating autonomous and life-like robots for human needs. Breazel and Scasselati (2002) believe that these machines should be able to “acquire new knowledge autonomously and become increasingly more complex and capable with the assistance of a person” (Breazeal & Scasselati 2002, p. 481). The benefits of such technology could mean exploration and searching in rescue operations is possible (Basilica & Amigoni 2011), or keeping track of moving objects or people using radio (Hollinger et al. 2011). However, autonomous robots have a negative social response encouraged by movies like Transformers and Wall-E, which show robotic technology taking over earth.

One of the areas of autonomous robotic development is in swarm robots, a system of robots which reorganise their spatial configuration to address a certain problem. These robots have the potential to work alongside rescue operations teams to locate people, retrieve bodies and even heal wounded humans in collapsed buildings. Correll and Grob (2010) recognise that these “Swarm-intelligent systems are common throughout nature” (Correll & Grob 2010, p. 785) and people are trying to emulate these to serve human problems. This video shows the trialling of swarm robots on moving a human child, which is one of the ways to test if using swarm robots in emergency situations is viable. The robots are seen to connect themselves together to move this child across the floor.

As much as this technology has the potential to be helpful in dire and dangerous situations, they also have the potential to become extremely dangerous themselves, reflecting the ideas of Kling et al. (2005) and Sawyer and Eschenfelder (2002). They believe that technological have endless adverse effects that are unpredictable and wide-spreading. This emphasises the importance of the social informatics field to contain and predict the social effects of and on technology.

NOT SO CLEVER-BOT

With machines being so fundamental to human development, it is natural that engineers and scientists have tried to reflect human qualities through a machine. Research in artificial intelligence has focused on creating robots that can “acquire new knowledge autonomously and become increasingly more complex and capable” (Breazeal & Scasselati 2002, p. 481). In Breazeal and Scasselati’s (2002) study of social learning in robots, they note that there is a large commercial interest in robot development for use “by ordinary people in their homes, their workplaces, and in public spaces, such as hospitals and museums…” (Breazeal & Scasselati 2002, p. 481). Evidently, the social implications of developing human-imitating robots would be profound if it were successful in the future.

One of the latest advances in the robotics world witnessed a conversation between two ‘Cleverbots’. Regarded as one of the best attempts by researchers to mimic human interaction, the experiment by Cornell’s Creative Machines Lab shows great potential for robots to acquire new knowledge and interact like humans would naturally.

Human robots are a great example of how technology is directly inspired by human social interactions. This example in particular reflects the advancement in robotic research to create autonomously-running robot interaction. It legitimises claims that robots have a stake in human future, and as Breazeal and Scasselati (2002) predict, if these experiments become successful, they will definitely play a large role in all sectors of human life. 

EMERGING CONCEPTS: Autobots

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