The Internet of Things (IoT)
Posted: April 4th, 2019
The Internet of Things
As information technologies continue to evolve and become more interconnected, organizations and society face both opportunities and risks. Rainer and Prince (2020) consider the Internet of Things to be “invisible ‘everywhere computing’ that is embedded in the objects around us” (p. 269). What are the implications to people and organizations of the convergence of mobile computing, cloud computing, e-business, and the Internet of Things?
In this assignment, you will write a 3-page (minimum 750 words) evaluative essay based on synthesizing the Internet of Things and applying it to business organizations.
What are the implications for organizations and society both today and over the next 5 years in relation to mobile computing, cloud computing, e-business, and the Internet of Things?
Review the Unit 10 Assignment Rubric – Buy Custom College Essays Online: Pay for essay online and instructions to ensure your work addresses all criteria.
Components
Your paper must be double-spaced and include at least 3 pages (minimum 750 words) of content, in addition to the title and reference page.
Your writing should follow the conventions of Standard English (correct grammar, punctuation, etc.), be well ordered, logical, and unified, as well as original and insightful, and display superior content, organization, style, and mechanics.
You are required to have at least three references, one of which must be including the textbook and two quality sources from the Purdue Global Library. Remember that APA uses both in-text citations and a reference list with hanging indents (both are required).
If you need help with these requirements, please use the services of the Writing Center. You may access the Writing Center from Academic Tools.
Utilize spelling and grammar checker in Word to minimize errors.
Utilize spelling and grammar check to minimize errors.
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The Internet of Things (IoT) has emerged as a transformative force, revolutionizing the way information is gathered, processed, and utilized. As Rainer and Prince (2020) aptly describe it, the IoT represents an “invisible ‘everywhere computing'” that permeates our surroundings through embedded devices and interconnected objects (p. 269). This interconnectedness has led to a convergence of mobile computing, cloud computing, e-business, and the Internet of Things, bringing forth numerous implications for both individuals and organizations in contemporary society.
Implications for Organizations:
Enhanced Operational Efficiency: The IoT enables businesses to collect real-time data from various interconnected devices and sensors, facilitating informed decision-making. By leveraging this data, organizations can optimize their operations, streamline processes, and identify inefficiencies, leading to cost savings and increased productivity (Al-Fuqaha et al., 2015).
Improved Customer Experience: With IoT-driven solutions, businesses can personalize customer experiences by analyzing user behavior and preferences. From smart homes to personalized marketing campaigns, organizations can enhance customer satisfaction and loyalty through targeted offerings and tailored services.
Data Security Challenges: The increased connectivity of devices in the IoT ecosystem also brings forth significant data security challenges. Organizations must implement robust cybersecurity measures to safeguard sensitive information from potential cyber threats and data breaches (Roman et al., 2018).
New Business Models: The IoT has opened up avenues for novel business models, such as product-as-a-service and subscription-based offerings. Organizations can transition from selling products to providing value-added services, creating new revenue streams and business opportunities (Zhang et al., 2018).
Implications for Society:
Advancements in Healthcare: The IoT has the potential to revolutionize healthcare by enabling remote patient monitoring, real-time health data analysis, and personalized treatment plans. This can lead to early detection of health issues, improved patient outcomes, and reduced healthcare costs (Islam et al., 2015).
Smart Cities and Sustainability: IoT-driven smart city initiatives can optimize resource allocation, reduce energy consumption, and enhance urban planning. Smart grids, intelligent transportation systems, and waste management solutions contribute to more sustainable and eco-friendly urban environments (Borgia et al., 2016).
Privacy and Ethical Concerns: The proliferation of IoT devices raises concerns about data privacy and ethical use of personal information. As more devices collect and share data, society faces the challenge of balancing the benefits of IoT with protecting individual privacy (Lai et al., 2019).
Digital Divide: While the IoT holds great promise, its widespread adoption may exacerbate the digital divide. Those without access to the necessary technology or internet connectivity may be excluded from the benefits and opportunities brought by the IoT, further deepening existing societal inequalities (Mann et al., 2017).
The Next 5 Years:
Over the next five years, the IoT is expected to experience significant growth and development, presenting new challenges and opportunities for both organizations and society. Advancements in edge computing will allow data processing to occur closer to the source, reducing latency and enhancing the responsiveness of IoT applications (Chiang & Zhang, 2016). Furthermore, the integration of artificial intelligence and machine learning into IoT systems will enable more sophisticated data analytics and automation, leading to greater efficiency and innovation (Bonomi et al., 2014).
However, as the IoT landscape expands, so do concerns related to privacy, security, and regulation. Policymakers and industry stakeholders will need to collaborate to establish robust frameworks that protect user data while fostering innovation (Atzori et al., 2017). Additionally, standards for interoperability and data exchange must be established to ensure seamless communication between diverse IoT devices and platforms (Vermesan & Friess, 2017).
The convergence of mobile computing, cloud computing, e-business, and the Internet of Things presents a dynamic landscape of opportunities and challenges for organizations and society. As businesses harness the power of the IoT to optimize operations and deliver personalized experiences, society benefits from improved healthcare, sustainability initiatives, and smart city developments. However, careful attention must be paid to data security, privacy, and inclusivity to ensure that the IoT’s potential is fully realized in a responsible and equitable manner.
References:
Rainer, R. K., & Prince, B. (2020). Introduction to Information Systems (8th ed.). Wiley.
Al-Fuqaha, A., Guizani, M., Mohammadi, M., Aledhari, M., & Ayyash, M. (2015). Internet of Things: A Survey on Enabling Technologies, Protocols, and Applications. IEEE Communications Surveys & Tutorials, 17(4), 2347-2376.
Roman, R., Zhou, J., & Lopez, J. (2018). On the features and challenges of security and privacy in distributed Internet of Things. Computer Networks, 57(10), 2266-2279.
Zhang, D., Liu, Y., Yin, J., & Wu, J. (2018). IoT Service Innovation and Its Implications on Business Model: A Case of the Blockchain Technology. IEEE Transactions on Engineering Management, 65(4), 477-485.
APA Format References from Scholar.Google.com (2016-2023):
Islam, S. M. R., Kwak, D., Kabir, M. H., Hossain, M., & Kwak, K. S. (2015). The internet of things for health care: a comprehensive survey. IEEE Access, 3, 678-708.
Borgia, E., Cimmino, M. A., Dohler, M., & Scarpitta, C. (2016). Smart cities based on Internet of Things: The road ahead. IEEE Transactions on Systems, Man, and Cybernetics: Systems, 46(6), 815-826.
Lai, C. F., Luo, J., Tan, H. P., & Zhang, L. (2019). A survey of privacy issues in Internet of Things. Journal of Network and Computer Applications, 126, 45-54.
Mann, H. S., Singh, K., & Simran, K. (2017). A survey on the Internet of Things security. International Journal of Computer Applications, 168(3), 14-18.