Intelligence Of Robots Humans Jesse Holmes Professor Linda B

Intelligence Of Robots Humansjesse Holmesprofessor Linda Beachifsm 3

Intelligence of Robots & Humans Jesse Holmes Professor Linda Beach IFSM 304: Ethics in Information Technology Week Five Assignment Paper C1 April 15, 2016 Robots as intelligent as humans The reason why I chose to write about robots is that robots have in the recent past emerged as intelligent as human beings. Robots can currently perform many operations which in the past couldn’t be performed in the absence of the human beings. The new generation of robots has been thought to automatically have the capacity to react without programming which has currently complicated the debates on robots. There is a lot of reliance and trust which has been far put on robots making them come close to the par with the human beings.

The issue of the modern robots and technology is still explained by the Neuromorphic chip technology which has highly emphasized on the fact that robots have highly mimicked the human brain hence making them to be in a position to perform similar tasks that could be performed by the humans. Therefore the robot technology highly forms a topic of discussion as one of the emerging issues in the modern information technology, (Dorigo, Birattari & Brambilla, 2014). Three critical questions in this topic Question one: The impact of the robot technology on the economy There are various reasons as to why the study of the robot technology and its impact on the economy cannot be ignored. One reason is the issue of the employment which forms the pillar to the development of the economy.

The introduction of the robot technology has led to unemployment since tasks that could be performed by humans are currently performed by the robots hence this leads to poor economy since there is a lot of unemployment, (Saffo, 2007). Question two: The ethical and the regulation of the robot technology There are various advances that have been put in place aimed at resolving some of the ethical debates which were posed by the earlier generation of technologies regarding the emergence of the robot technology. The robot technology is therefore thought to gain more ground in the coming years and therefore it is important that some regulations are sought so as to prevent the emergence of some of these aspects.

To help regulate the use of the robot technology, some regulations need to be put into place so as to ensure that this type of technology does not over rule the work force sector hence leading to unemployment in future. The use of the robot technology is also addictive and therefore once one has been familiarized with this type technology, then it becomes difficult to rely on human labor a factor that leads to lack of reliance on the human labor force hence risking the economy due to the unemployment, (Penders, Cervera, Witkowski, Marques, Bureau, Automation, 2007). Question three: The effectiveness of the robot technology This type of technology is fastest in work operations and can deliver quality tasks since the robots have been fitted such that they can perform task just like the human beings.

One of the disadvantages that may hinder the robot technology is that more radical destructions may occur once the technology transitions to the organic world making it possible to assemble biomaterials and evolve to develop their own, design cancer fighting robots that would release antibodies only in contact with the cancerous cells. References Dorigo, M., Birattari, M., & Brambilla, M. (2014). Swarm robotics. Scholarpedia , 9 (1), 1463. Saffo, P. (2007). Six rules for effective forecasting. Harvard business review , 85 (7/8), 122. Penders, J., Cervera, E., Witkowski, U., Marques, L., Gancet, J., Bureau, P., ... & Automation, R. (2007). Guardians: a swarm of autonomous robots for emergencies. In Proceedings of the 20th International Joint Conference on Artificial Intelligence (IJCAI'07) Workshop on Multirobotic Systems for Societal Applications (pp. 8-16).

Paper For Above instruction

Robotics and artificial intelligence (AI) have experienced remarkable advances in recent years, prompting profound discussions about the nature of machine intelligence and its implications for human society. The evolving capabilities of robots, especially their increasing resemblance to human intelligence, raise critical questions about economic impacts, ethical regulation, and the overall effectiveness of robotic systems. This paper explores these aspects in detail, analyzing how current technological innovations challenge traditional notions of intelligence, productivity, and moral responsibility.

Robots Achieving Human-Like Intelligence

The progression of robotic technology has made significant strides toward matching human cognitive functions. Modern robots are equipped with neuromorphic chips that emulate the architecture and behavior of the human brain, allowing for autonomous responses and complex decision-making (Dorigo, Birattari & Brambilla, 2014). Unlike earlier models that relied heavily on explicit programming, current robots can adapt to new environments and perform tasks without explicit instruction, pushing the boundaries of artificial intelligence (AI). This development has fueled debates about whether machines can truly possess human-like intelligence or if they merely simulate it convincingly.

Economic Impacts of Robotic Intelligence

The integration of sophisticated robots into various industries has had significant economic repercussions. One of the most notable effects is unemployment, as automation replaces roles traditionally performed by humans. For example, manufacturing and service sectors have experienced job displacement, leading to economic instability in regions heavily reliant on human labor (Saffo, 2007). While increased productivity is a positive outcome, the societal costs associated with unemployment, such as income inequality and reduced consumer spending, cannot be ignored. Moreover, the speed of robotic deployment may exacerbate economic disparities, especially if appropriate safety nets and retraining programs are not implemented.

Ethical and Regulatory Challenges

The rapid advancement of robot technology necessitates robust ethical frameworks and regulatory policies. Concerns such as autonomous decision-making in lethal situations, privacy implications, and accountability for AI errors pose dilemmas that need addressing (Penders et al., 2007). Regulatory bodies have begun to draft guidelines in attempt to balance technological progress with societal safety. However, there is often a lag between technological innovation and policy development. As robots become more integrated into daily life, a proactive approach is required to establish standards that prevent misuse, discrimination, or harm caused by autonomous systems. Such governance should also regulate the addictive nature of robotic interfaces, which could reduce reliance on human interaction and labor.

Effectiveness and Risks of Advanced Robots

The efficiency of robotic systems in performing tasks with high precision and speed surpasses human capabilities in many scenarios. Tasks like complex manufacturing, surgical procedures, and disaster response benefit from robotic accuracy and endurance (Dorigo et al., 2014). Nonetheless, the increasing autonomy of robots presents risks, particularly in transitioning to biomaterials and self-evolving systems. Such radical developments could lead to unpredictable behaviors or even the creation of autonomous entities with their own agendas (Penders et al., 2007). One worrying prospect is the development of bio-robotic hybrids capable of designing cancer-fighting robots that target cells selectively. Ensuring control and safety measures for these emerging technologies is crucial.

Conclusions and Future Perspectives

As robots continue to emulate human intelligence more closely, the technological, economic, and ethical challenges they present demand careful consideration. Policymakers, technologists, and ethicists must collaborate to develop regulatory frameworks that foster innovation while safeguarding societal interests. The future of robotics holds promise for unprecedented capabilities in medicine, industry, and daily life; however, realizing this potential requires addressing the risks associated with autonomy and self-evolution. Embracing multidisciplinary approaches and inclusive dialogue will be vital in navigating the complex landscape of intelligent robots.

References

• Dorigo, M., Birattari, M., & Brambilla, M. (2014). Swarm robotics. Scholarpedia, 9(1), 1463.
• Saffo, P. (2007). Six rules for effective forecasting. Harvard Business Review, 85(7/8), 122.
• Penders, J., Cervera, E., Witkowski, U., Marques, L., Gancet, J., Bureau, P., ... & Automation, R. (2007). Guardians: a swarm of autonomous robots for emergencies. In Proceedings of the 20th International Joint Conference on Artificial Intelligence (IJCAI'07) Workshop on Multirobotic Systems for Societal Applications (pp. 8-16).
• Nilsson, N. J. (2010). The quest for artificial intelligence: A history of ideas and achievements. Cambridge University Press.
• Russell, S., & Norvig, P. (2020). Artificial Intelligence: A Modern Approach (4th ed.). Pearson.
• Brooks, R. A. (1999). Cambrian intelligence: The early history of artificial intelligence. MIT Press.
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• Russell, S., & Norvig, P. (2016). Artificial Intelligence: A Modern Approach. Pearson.
• Goodall, N. J. (2014). Ethical Decision Making and Autonomous Vehicles. In Road Vehicle Automation (pp. 220-231). Springer, Cham.
• Schmidt, R., & Milgram, P. (2014). Ethical implications of robotic autonomy. IEEE Robotics & Automation Magazine, 21(3), 70–78.