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Internet of things iot powerpoint presentation slides complete deck

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The Internet of Things (IoT (Internet of Things)) is a network of physical objects, devices, vehicles, buildings, and other items embedded with electronics, software, sensors, and connectivity that enables them to collect and exchange data.

The advantages of IoT (Internet of Things) include improved efficiency, cost savings, increased productivity, and better decision-making. Disadvantages include security concerns, privacy risks, and the potential for job displacement.

The layers used in IoT (Internet of Things) include the physical layer, data link layer, network layer, transport layer, session layer, presentation layer, and application layer.

The IoT (Internet of Things) decision framework is a structured approach to making decisions about implementing IoT (Internet of Things) solutions in a business. It includes analyzing the problem, identifying goals and requirements, evaluating options, selecting the best solution, and implementing and monitoring the solution.

Key challenges of IoT (Internet of Things) include security risks, privacy concerns, data management and analysis, interoperability issues, and the complexity of implementing and maintaining IoT (Internet of Things) systems.

Examples of IoT (Internet of Things) in different domains include energy management systems, biometric authentication systems, smart home automation, precision agriculture, and industrial automation

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The Internet of Things (IoT) refers to a network of physical devices, vehicles, appliances, and other physical objects that are embedded with sensors, software, and network connectivity, allowing them to collect and share data.

IoT devices—also known as “smart objects”—can range from simple “smart home” devices like smart thermostats, to wearables like smartwatches and RFID-enabled clothing, to complex industrial machinery and transportation systems. Technologists are even envisioning entire “smart cities” predicated on IoT technologies.

IoT enables these smart devices to communicate with each other and with other internet-enabled devices. Like smartphones and gateways, creating a vast network of interconnected devices that can exchange data and perform various tasks autonomously. This can include:

• monitoring environmental conditions in farms
• managing traffic patterns with smart cars and other smart automotive devices
• controlling machines and processes in factories 
• tracking inventory and shipments in warehouses

The potential applications of IoT are vast and varied, and its impact is already being felt across a wide range of industries, including manufacturing, transportation, healthcare, and agriculture. As the number of internet-connected devices continues to grow, IoT is likely to play an increasingly important role in shaping our world. Transforming the way that we live, work, and interact with each other.

In an enterprise context, IoT devices are used to monitor a wide range of parameters such as temperature, humidity, air quality, energy consumption, and machine performance. This data can be analyzed in real time to identify patterns, trends, and anomalies that can help businesses optimize their operations and improve their bottom line.

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IoT is important for business for several reasons. Here are the core benefits of IoT:

By using IoT devices to automate and optimize processes, businesses can improve efficiency and productivity. For example, IoT sensors can be used to monitor equipment performance and detect or even resolve potential issues before they cause downtime, reducing maintenance costs and improving uptime.

IoT devices generate vast amounts of data that can be used to make better-informed business decisions and new business models. By analyzing this data, businesses can gain insights into customer behavior, market trends, and operational performance, allowing them to make more informed decisions about strategy, product development, and resource allocation.

By reducing manual processes and automating repetitive tasks, IoT can help businesses reduce costs and improve profitability. For example, IoT devices can be used to monitor energy usage and optimize consumption, reducing energy costs and improving sustainability.

By using IoT technology to gather data about customer behavior, businesses can create more personalized and engaging experiences for their customers. For example, retailers can use IoT sensors to track customer movements in stores and deliver personalized offers based on their behavior.

Several technologies come together to make IoT possible.

• Sensors and actuators: Sensors are devices that can detect changes in the environment, such as temperature, humidity, light, motion, or pressure. Actuators are devices that can cause physical changes in the environment, such as opening or closing a valve or turning on a motor. These devices are at the heart of IoT, as they allow machines and devices to interact with the physical world. Automation is possible when sensors and actuators work to resolve issues without human intervention.
• Connectivity technologies: To transmit IoT data from sensors and actuators to the cloud, IoT devices need to be connected to the internet. There are several connectivity technologies that are used in IoT, including wifi, Bluetooth, cellular, Zigbee, and LoRaWAN.
• Cloud computing: The cloud is where the vast amounts of data that is generated by IoT devices are stored, processed, and analyzed. Cloud computing platforms provide the infrastructure and tools that are needed to store and analyze this data, as well as to build and deploy IoT applications.
• Big data analytics: To make sense of the vast amounts of data generated by IoT devices, businesses need to use advanced analytics tools to extract insights and identify patterns. These tools can include machine learning algorithms, data visualization tools and predictive analytics models.
• Security and privacy technologies: As IoT deployments become more widespread, IoT security and privacy become increasingly important. Technologies such as encryption , access controls and intrusion detection systems are used to protect IoT devices and the data they generate from cyberthreats.

In the healthcare industry, IoT devices can be used to monitor patients remotely and collect real-time data on their vital signs, such as heart rate, blood pressure and oxygen saturation. This sensor data can be analyzed to detect patterns and identify potential health issues before they become more serious. IoT devices can also be used to track medical equipment, manage inventory and monitor medication compliance.

Industrial IoT devices can be used in manufacturing to monitor machine performance, detect equipment failures and optimize production processes. For example, sensors can be used to monitor the temperature and humidity in a manufacturing facility, ensuring that conditions are optimal for the production of sensitive products. IoT devices can also be used to track inventory, manage supply chains and monitor the quality of finished products. Industrial IoT is such an expansive new technology space, that it is sometimes referred to by its own abbreviation: IIoT (Industrial IoT).

In the retail industry, IoT devices can be used to track customer behavior, monitor inventory levels and optimize store layouts. For example, sensors can be used to track foot traffic in a store and analyze customer behavior, allowing retailers to optimize product placement and improve the customer experience. IoT devices can also be used to monitor supply chains, track shipments and manage inventory levels.

IoT devices can be used in agriculture to monitor soil conditions, weather patterns and crop growth. For example, sensors can be used to measure the moisture content of soil, ensuring that crops are irrigated at the optimal time. IoT devices can also be used to monitor livestock health, track equipment and manage supply chains. Low-power or solar-powered devices can often be used with minimal oversight in remote locations.

In the transportation industry, IoT devices can be used to monitor vehicle performance, optimize routes, and track shipments. For example, sensors can be used to monitor the fuel efficiency of connected cars, reducing fuel costs and improving sustainability. IoT devices can also be used to monitor the condition of cargo, ensuring that it arrives at its destination in optimal condition.

IoT offers many benefits, but it also poses several risks and challenges. Here are some of the most significant ones:

Security and privacy risks: As IoT devices become more widespread, security and privacy become increasingly important. Many IoT devices are vulnerable to hackers and other cyberthreats, which can compromise the security and privacy of sensitive data. IoT devices can also collect vast amounts of personal data, raising concerns about privacy and data protection.

Interoperability issues: IoT devices from different manufacturers often use different standards and protocols, making it difficult for them to perform what’s called “machine to machine” communication. This can lead to interoperability issues and create silos of data that are difficult to integrate and analyze.

Data overload: IoT devices generate vast amounts of data, which can overwhelm businesses that are not prepared to handle it. Analyzing this data and extracting meaningful insights can be a significant challenge, especially for businesses that lack the necessary analytics tools and expertise.

Cost and complexity: Implementing an IoT system can be costly and complex, requiring significant investments in hardware, software, and infrastructure. Managing and maintaining an IoT system can also be challenging, requiring specialized skills and expertise.

Regulatory and legal challenges: As IoT devices become more widespread, regulatory, and legal challenges are emerging. Businesses need to comply with various data protection, privacy and cybersecurity regulations, which can vary from country to country.

Managing IoT devices can be a complex and challenging task, but there are several best practices that businesses can follow to ensure that their IoT devices are secure, reliable, and optimized for performance. Here are some tips for managing IoT devices:

Plan your IoT strategy: Before deploying any IoT devices, businesses should have a clear understanding of their objectives, use cases and desired outcomes. This can help them choose the right devices, IoT platforms and technologies, and ensure that their IoT strategy is aligned with their business goals.

Choose secure IoT products: Security is a critical consideration for IoT solutions, as they can be vulnerable to cyberattacks. Businesses should choose devices that are designed with security in mind and implement appropriate security systems, such as encryption, authentication, and access controls.

Monitor and maintain devices: IoT devices need to be monitored and maintained regularly to ensure that they are performing optimally and are not vulnerable to security threats. This can involve monitoring device health and performance, updating firmware and software and conducting regular security audits and predictive maintenance.

Manage data effectively: IoT devices generate vast amounts of real-world data, which can be challenging to manage and analyze. Businesses should have a clear data management strategy in place, including data storage, analysis, and visualization. To ensure that they can extract meaningful insights from the data that is generated by their IoT devices.

Build an ecosystem: IoT devices are often part of a larger ecosystem that includes other devices, platforms, and technologies. Businesses should have a clear understanding of this ecosystem and ensure that their IoT devices can integrate effectively with other systems and technologies.

The future of IoT is promising, with many exciting developments for businesses on the horizon. Here are some of the trends and predictions for the future of IoT:

Growth: The number of IoT devices is expected to continue to grow rapidly, with estimates suggesting that there will be tens of billion IoT devices in use over the next few years. This growth will be driven by increased adoption across industries, as well as the development of new use cases and applications.

Edge computing: Edge computing is becoming increasingly important for IoT, as it allows data to be processed and analyzed closer to the source of the data, rather than in a centralized data center. This can improve response times, reduce latency and reduce the amount of data that needs to be transferred over IoT networks.

Artificial intelligence and machine learning: AI and machine learning are becoming increasingly important for IoT, as they can be used to analyze vast amounts of data that is generated by IoT devices and extract meaningful insights. This can help businesses make more informed decisions and optimize their operations.

Blockchain: Blockchain technology is being explored as a way to improve security and privacy in the IoT. Blockchain can be used to create secure, decentralized networks for IoT devices, which can minimize data security vulnerabilities.

Sustainability: Sustainability is becoming an increasingly important consideration for IoT, as businesses look for ways to reduce their environmental impact. IoT can be used to optimize energy usage, reduce waste and improve sustainability across a range of industries.

The future of IoT is exciting, with many new developments and innovations on the horizon, with providers of devices offering attractive pricing, as the cost of IoT device production declines. As the number of IoT devices continues to grow, businesses need to be prepared to adapt to new technologies and embrace new use cases and applications. Those that are able to do so will be positioned to reap the benefits of this transformative technology.

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Internet of Things (IoT)

Nov 07, 2019

4.73k likes | 11.86k Views

Introduction by Bob Gill, P.Eng., FEC, smIEEE 29 Nov 2016. Internet of Things (IoT). Plan of Presentation. What is Internet of Things? IOT Definition IOT Evolotion How IoT Works? Current Status & Future Prospect of IoT Knowledge Management – From Data to Wisdom The Future of IoT

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Introduction by Bob Gill, P.Eng., FEC, smIEEE 29 Nov 2016 Internet of Things (IoT)

Plan of Presentation • What is Internet of Things? • IOT Definition • IOT Evolotion • How IoT Works? • Current Status & Future Prospect of IoT • Knowledge Management – From Data to Wisdom • The Future of IoT • The Potential of IoT • Few Applications of IoT • Technological Challenges of IoT • Criticisms & Controversies of IoT • References

What is IoT? The Internet of Things (IoT) is the network of physical objects or "things" embedded with electronics, software, sensors, and network connectivity, which enables these objects to collect and exchange data. IoT allows objects to be sensed and controlled remotely across existing network infrastructure, creating opportunities for more direct integration between the physical world and computer-based systems, and resulting in improved efficiency, accuracy and economic benefit.

IOT Definition "The Internet of Things is a network of physical objects... that use sensors and Application Program Interfaces (APIs) to connect and exchange data over the Internet."

IOT Evolution

IOT Vs WSN WSN is sometimes referred to as subset of IoT.

"Things," in the IoT sense, can refer to a wide variety of devices such as heart monitoring implants, biochip transponders on farm animals, electric clams in coastal waters, automobiles with built-in sensors, DNA analysis devices for environmental/food/pathogen monitoring or field operation devices that assist fire-fighters in search and rescue operations. These devices collect useful data with the help of various existing technologies and then autonomously flow the data between other devices.

How IoT Works? Internet of Things is not the result of a single novel technology; instead, several complementary technical developments provide capabilities that taken together help to bridge the gap between the virtual and physical world. These capabilities include: • Communication and cooperation • Addressability • Identification • Sensing • Actuation • Embedded information processing • Localization • User interfaces

Sensor Smart Tech Nano Tech RFID To identify and track the data of things To collect and process the data to detect the changes in the physical status of things To enhance the power of the network by devolving processing capabilities to different part of the network. To make the smaller and smaller things have the ability to connect and interact. How IoT Works?

The Structure of IoT The IoT can be viewed as a gigantic network consisting of networks of devices and computers connected through a series of intermediate technologies where numerous technologies like RFIDs, wireless connections may act as enablers of this connectivity. • Tagging Things : Real-time item traceability and addressability by RFIDs. • Feeling Things : Sensors act as primary devices to collect data from the environment. • Shrinking Things : Miniaturization and Nanotechnology has provoked the ability of smaller things to interact and connect within the “things” or “smart devices.” • Thinking Things : Embedded intelligence in devices through sensors has formed the network connection to the Internet. It can make the “things” realizing the intelligent control.

Current Status & Future Prospect of IoT “Change is the only thing permanent in this world”

IoT as a Network of Networks: These networks connected with added security, analytics, and management capabilities. This will allow IoT to become even more powerful in what it can help people achieve.

Knowledge Management – Turning Data into Wisdom The more data that is created, the better understanding and wisdom people can obtain.

The Future of IoT "The Sky's not the limit. It's only the beginning with IoT."

The Potential of IoT GE’s estimates on potential of just ONE percent savings applied using IoT across global industry sectors.

Unlock the Massive potential of IoT

Technology roadmap of IoT

Applications of IoT "The Ultimate Goal of IOT is to Automate Human Life."

Few Applications of IoT • Building and Home automation • Manufacturing • Medical and Healthcare systems • Media • Environmental monitoring • Infrastructure management • Energy management • Transportation • Better quality of life for elderly • ... ... ... You name it, and you will have it in IoT!

Sensors in even the holy cow! In the world of IoT, even the cows will be connected and monitored. Sensors are implanted in the ears of cattle. This allows farmers to monitor cows’ health and track their movements, ensuring a healthier, more plentiful supply of milk and meat for people to consume. On average, each cow generates about 200 MB of information per year.

Of course, we know nothing remains static, especially when it comes to the Internet. Initiatives and advances, such as Cisco‘s Planetary Skin, GE’s Industrial Internet, HP‘s central nervous system for the earth (CeNSE), and smart dust, have the potential to add millions—even billions—of sensors to the Internet. As cows, water pipes, people, and even shoes, trees, and animals become connected to IoT, the world has the potential to become a better place. “With a trillion sensors embedded in the environment—all connected by computing systems, software, and services—it will be possible to hear the heartbeat of the Earth, impacting human interaction with the globe as profoundly as the Internet has revolutionized communication.” - Peter Hartwell, Senior Researcher, HP Labs. “How much more IoT can do is only left to your imagination”

Internet of Things is the next stage of the information revolution and referenced the inter-connectivity of everything from urban transport to medical devices to household appliances. Integration with the Internet implies that devices will use an IP address as a unique identifier. However, due to the limited address space of IPv4 (which allows for 4.3 billion unique addresses), objects in the IoT will have to use IPv6 to accommodate the extremely large address space required. Objects in the IoT will not only be devices with sensory capabilities, but also provide actuation capabilities (e.g., bulbs or locks controlled over the Internet).

On the other hand, IoT systems could also be responsible for performing actions, not just sensing things. Intelligent shopping systems, for example, could monitor specific users' purchasing habits in a store by tracking their specific mobile phones. These users could then be provided with special offers on their favourite products, or even location of items that they need, which their fridge has automatically conveyed to the phone. Additional examples of sensing and actuating are reflected in applications that deal with heat, electricity and energy management, as well as cruise-assisting transportation systems. Other applications that the Internet of Things can provide is enabling extended home security features and home automation.

IoT helps you in LIFE LOGGING

TECHNOLOGICAL CHALLENGES OF IoT At present IoT is faced with many challenges, such as: • Scalability • Technological Standardization • Inter operability • Discovery • Software complexity • Data volumes and interpretation • Power Supply • Interaction and short range communication • Wireless communication • Fault tolerance

Criticisms and Controversies of IoT Scholars and social observers and pessimists have doubts about the promises of the ubiquitous computing revolution, in the areas as: • Privacy • Security • Autonomy and Control • Social control • Political manipulation • Design • Environmental impact • Influences human moral decision making

References • www.google.com • https://en.wikipedia.org/wiki/Internet_of_Things • Cisco whitepaper, "The Internet of Things" - How the Next Evolution of the Internet Is Changing Everything, by Dave Evans, April 2011. • GE cloud expo 2014, "Industrial Internet as a Service", by Shyam Varan Nath, Principal Architect. • Dr. Mazlan Abbas, MIMOS Berhad, Wisma IEM, Petaling Jaya

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