What is the Internet of Things (IoT)? 

At a glance

• The Internet of Things (IoT) refers to a network of connected devices that perform tasks in real time and communicate data over the internet.
• You might see the IoT in action when you use your smartphone, laptop, smart car or home appliances.
• Data analytics, data research science and information security analytics are just a few fields where the IoT plays a role.
• Interested in learning more about IT or cybersecurity? University of Phoenix offers flexible, online programs in cybersecurity, information technology and more!

The definition of the Internet of Things

The Internet of Things (IoT) refers to a network of technologically enabled devices (think sensors, software and actuators) that performs computing tasks in real time and then communicate and exchange data over the internet. IoT devices include anything from smartphones to smart refrigerators to cars with internet navigation systems.

A whole suite of interconnected internet technologies is required to establish a smart network of IoT devices, including wireless communication protocols, cloud computing platforms, analytic tools to process data, and data storage devices, like hard drives, local area networks or remote data centers. More advanced IoT systems combine sensors with an artificial intelligence or machine learning component that has wireless internet connectivity to help automate decision-making in real time.

The Internet of Things has also become increasingly prevalent in business and personal environments. According to Grand View Research, the global IoT market for retail is projected to reach $297.44 billion by 2030 — highlighting the rapid expansion and importance of IoT technology in today's world.

Here are a few typical IoT applications:

• A smart home where connected devices and sensors, like lights, security systems and other technology, can be controlled and monitored remotely
• Wearable technology that helps users perform work and track daily activity
• A vehicle with features like GPS navigation, wireless internet connectivity, collision sensors and automatic emergency braking
• Sensors on delivery trucks or cargo ships that monitor their whereabouts over the internet while en route and provide real-time updates.

As these examples, and many more, demonstrate, IoT devices are increasingly essential to jobs, life and social infrastructure.

Applications of the Internet of Things 

From agriculture to manufacturing supply chains, retail to healthcare jobs, IoT devices, infrastructure and applications can improve efficiency, reduce costs and make day-to-day life easier for businesses. Here are just a few areas where it’s making a difference.

Education 

IoT applications can enhance educational experiences by providing students with access to information and resources. For example, IoT devices can automate mundane tasks like attendance tracking and scheduling, freeing up time for teachers to focus on instruction rather than paperwork.

Healthcare

The IoT and IoT devices are revolutionizing healthcare work in several fascinating ways. A few notable examples:

• IoT tools and wearable technology for remote patient monitoring to help provide continuous care
• Smart beds with sensor technology that responds to patient movement and adjusts positioning and pressure as needed
• Smart pills or ingestible sensors that detect ingestion and provide information about the pill’s location

Agriculture

IoT technologies are equally transformative in the infrastructure of the agricultural sector. Precision farming, for example, employs IoT technologies like GPS-guided tractors and drones that monitor and manage crops. These IoT devices collect data on crop health, soil conditions and more, allowing farmers to make data-driven decisions.

Manufacturing  

Manufacturing is another sector experiencing a transformation via IoT devices. A notable example is the rise of smart factories where IoT sensors on machinery monitor performance, detect malfunctions and predict maintenance needs. This visibility leads to better planning, reduces waste and increases efficiency throughout the supply chain.

IoT career opportunities

As businesses become smarter and more connected, they’ll need dedicated career professionals working in computing and programming roles involving IoT projects, technologies and processes. IoT career roles may be available in the following sectors:

Data analytics

Data analysts gather information from different sources, study it, synthesize it and use their findings to increase the efficiency and profitability of companies.

Primary responsibilities include:

• Collecting data from primary and secondary sources and maintaining databases
• Analyzing and interpreting complex data to identify patterns, trends and insights
• Creating visualizations, reports and presentations for business stakeholders

The U.S. Bureau of Labor Statistics (BLS) classifies data analysts as data scientists. When it comes to a data analyst’s salary, the lowest 10% earned around $59,430 and the highest 10% earned upward of $167,040 in May 2021, according to BLS.

A Bachelor of Science in Data Science helps students gain a comprehensive understanding of data analysis techniques, statistics and related software tools.

Data research science

A data scientist, or research scientist, uses analytical, statistical and programming skills to interpret large data sets for valuable insights.

A data scientist’s duties include:

1. Gathering, categorizing and analyzing complex data, which may include IoT sources
2. Creating, testing, updating and validating algorithms and predictive machine learning models
3. Using data visualization software to illustrate their findings in an easy-to-understand way

Like data analysts, data scientists earned $59,430 to $167,040 per year in May 2021, according to the BLS. To become one, you usually need a minimum of a bachelor's degree in computer science or a related field. To gain more in-depth knowledge and skill sets, a Master of Science in Data Science is a path to take.

Cybersecurity 

An IT systems security analyst, or information security analyst, must primarily monitor an organization’s networks for security breaches. If one occurs, then it’s investigated, and cybersecurity measures need to be implemented to remediate it.

Cybersecurity professional implement end-to-end measures to safeguard sensitive information and prevent data breaches coming from the IoT and elsewhere, ensuring data integrity, confidentiality and availability.

A information security analyst’s responsibilities include:

1. Monitoring for potential security breaches and conducting investigations if breaches occur
2. Performing regular checks for vulnerabilities in computer and network systems
3. Creating and setting security standards and best practices for their companies

In May 2021, the lowest 10% of information security analysts earned less than $61,520 and the highest 10% earned more than $165,920, according to BLS.

To become one, you typically need at least a bachelor’s degree in computer and information technology or a similar field. A bachelor’s degree in cybersecurity can be ideal for someone looking to work in this niche.

These are just a few examples of the types of roles that engage with the IoT. To decide which career is for you, do further research about each field, network with professionals and gain experience and education to see which aspects of IT interest you the most.

Salary ranges are not specific to students or graduates of University of Phoenix. Actual outcomes vary based on multiple factors, including prior work experience, geographic location and other factors specific to the individual. University of Phoenix does not guarantee employment, salary level or career advancement. BLS data is geographically based. Information for a specific state/city can be researched on the BLS website.

Cybersecurity and technology programs at University of Phoenix

If you’re interested in learning more about technology or cybersecurity programs, University of Phoenix offers online certificates, bachelor’s degrees and master’s degrees to accommodate IT professionals at different stages of their careers. Learn more about undergraduate and graduate online technology degrees from UOPX!

• Advanced Cybersecurity Certificate — In this program, you can develop the technical knowledge to step into the fast-growing field of IT security, helping keep computer systems safe from data breaches and cyberattacks. You’ll get real-life experience through hands-on IT labs and simulations while developing a broad knowledge of cybersecurity to help prepare you for your technology career.
• Associate of Science in Cybersecurity — The International Council of E-Commerce Consultants (EC-Council) and University of Phoenix teamed up to launch the Associate of Science in Cybersecurity degree and elective courses that align with three EC-Council certification exams: Certified Ethical Hacker (CEH), Certified Network Defender (CND) and Certified Secure Computer User (CSCU). Awarded the EC-Council’s 2019 Academic Circle of Excellence Award as a result of this partnership, this program is designed to help you develop the problem-solving skills and techniques needed to defend the cyber domain.
• Bachelor of Science in Information Technology — Learn skills including business process, cybersecurity, information systems, operations and systems analysis. You’ll also learn how to apply key principles of systems analysis and design to selected business processes.
• Bachelor of Science in Cybersecurity — This program teaches skills such as security policies, network security, cybersecurity and more. You’ll learn how to examine an organization’s infrastructure to ensure compliance with cybersecurity standards and policies and how to prevent cyberattacks.
• Bachelor of Science in Data Science — In this program, you’ll gain the fundamental knowledge needed to analyze, manipulate and process data sets using statistical software. Learn extract, transform and load (ETL) processes for integrating data sets for business intelligence platforms. Discover techniques to transform structured and unstructured data sets into meaningful information to identify patterns and drive strategic decision-making.
• Master of Science in Cybersecurity — This program explores in depth such skills and topics as cybersecurity, security policies and vulnerability. Learn how to design elements of an enterprise using standards and tactics in cybersecurity, consider ethical and privacy protocols in enterprise cybersecurity, and implement cybersecurity frameworks and policies in risk management.