This document provides an overview of IoT (Internet of Things), including defining IoT, describing its benefits and applications, reviewing market forecasts, identifying the pillars and infrastructure of IoT, examining underlying technologies like sensors and connectivity standards, exploring challenges, and recommending strategies for success. Key topics covered include defining IoT as the interconnection of people, processes, data and things via devices connected to the internet; analyzing market forecasts with over 200 billion connected devices by 2020 and $1.3 trillion market value; and identifying security, expertise shortages, and standards as major challenges.
The slide deck provides the details of IoT Architecture, Market/Projects worldwide, IoT Frameworks. Also covers overview of Raspberry Pi, and how can you start your IoT project with it.
Edge computing is becoming a key architectural component for industrial IoT deployments. Gartner Group identifies edge computing as one of their top Tech Trends for 2019. The opportunity to process data at the edge of the network, closer to the sensors and actuators, before data is sent to the cloud results in improved security, more efficient data movement, and better performance for industrial IoT use cases.
This presentation will explore three aspects of edge computing:
The benefits of edge computing for industrial IoT use cases
The key features delivered in edge computing solutions
A survey of different edge computing options available to customers.
Developing Enterprise-Level IoT Solutions by Fariz SaracevicBosnia Agile
This session will present challenges with building enterprise-level IoT solutions, the use of Continuous Engineering practices and lifecycle management tools to address those challenges, and the resulting business value from the perspective of business and engineering leaders. One of the scenarios that we will look at more details is around IoT-connected car.
Intelligent Internet of Things (IIoT): System Architectures and CommunicationsRaghu Nandy
Internet of Things (IoT) can be designed by various approaches with optimistic technology choices. This paper focuses on comparing recent studies on architectural choices and communication approaches for IoT Systems. Understanding Goals of an IoT system and inventing a general prototype for general IoT solutions is unique challenging. Existing research prototypes provide us information about IoT systems and their challenges. Existing architectures and communication approaches such as such as Service Oriented Architecture (SOA), Instant Messaging (XMPP) and Web- Sockets Service can be used to develop a general IoT System prototype. SOA provides centralized/decentralized IoT systems. Instant Message services such as XMPP can be used to build distributed and secure IoT platforms. Web-sockets also used to build scalable IoT systems. Over all the choice depends on IoT system Goal and limitations. Intelligent IoT (IIoT) Systems can be seen as decision making system. IoT systems can be built on Cloud infrastructures With Sensor Event as a Service (SEaaS) - Cloud Sensor networks can enable applications to access on demand real-time sensor data. A generic IoT platform can be built and extended to a newer applications and platforms.
The slide deck provides the details of IoT Architecture, Market/Projects worldwide, IoT Frameworks. Also covers overview of Raspberry Pi, and how can you start your IoT project with it.
Edge computing is becoming a key architectural component for industrial IoT deployments. Gartner Group identifies edge computing as one of their top Tech Trends for 2019. The opportunity to process data at the edge of the network, closer to the sensors and actuators, before data is sent to the cloud results in improved security, more efficient data movement, and better performance for industrial IoT use cases.
This presentation will explore three aspects of edge computing:
The benefits of edge computing for industrial IoT use cases
The key features delivered in edge computing solutions
A survey of different edge computing options available to customers.
Developing Enterprise-Level IoT Solutions by Fariz SaracevicBosnia Agile
This session will present challenges with building enterprise-level IoT solutions, the use of Continuous Engineering practices and lifecycle management tools to address those challenges, and the resulting business value from the perspective of business and engineering leaders. One of the scenarios that we will look at more details is around IoT-connected car.
Intelligent Internet of Things (IIoT): System Architectures and CommunicationsRaghu Nandy
Internet of Things (IoT) can be designed by various approaches with optimistic technology choices. This paper focuses on comparing recent studies on architectural choices and communication approaches for IoT Systems. Understanding Goals of an IoT system and inventing a general prototype for general IoT solutions is unique challenging. Existing research prototypes provide us information about IoT systems and their challenges. Existing architectures and communication approaches such as such as Service Oriented Architecture (SOA), Instant Messaging (XMPP) and Web- Sockets Service can be used to develop a general IoT System prototype. SOA provides centralized/decentralized IoT systems. Instant Message services such as XMPP can be used to build distributed and secure IoT platforms. Web-sockets also used to build scalable IoT systems. Over all the choice depends on IoT system Goal and limitations. Intelligent IoT (IIoT) Systems can be seen as decision making system. IoT systems can be built on Cloud infrastructures With Sensor Event as a Service (SEaaS) - Cloud Sensor networks can enable applications to access on demand real-time sensor data. A generic IoT platform can be built and extended to a newer applications and platforms.
By bringing together the IoT with IBM Watson
™
cognitive computing
technologies, we’re infusing a new kind of thinking into objects,
systems and processes. Watson technology understands, reasons
and learns. It communicates in natural, human terms. It understands
context and nuance, enabling it to not only uncover new insights
but also unearth entirely new pathways to explore and possibilities
to imagine
Connect, Secure & Automate the Distribution Grid with CISCO SCADA RTU - Eximp...Bosnia Agile
We are proud to present one of the biggest Innovations in the Energy Utilities sector, developed from scratch to address the Smart Grid challenge of connecting hundreds of thousands of Electrical Secondary Sub-Stations, while ensuring SCADA Automation and Security in each sub-station, all in a cost-effective, easy to manage solution. While traditionally, the SCADA RTU, Router and Firewall components have been thought about as 3 different physical devices, Cisco, together with Eximprod Group, have developed a 3-in-1 device, that encompasses all 3 functionalities. We have named it the Cisco Scada Gateway. As a SCADA RTU, the device works with any SCADA Dispatcher and offers superior RTU functionality. As a Router, the device offers the full functionality of Cisco IOS having the Cisco IR809 as a hardware platform, capable of multi-protocol connectivity, including dual-sim 4G. As a Firewall, the device includes a full-features zone-based firewall solution, to segment and govern network access through the SCADA network.
The Internet of Things (IoT) is one of the hottest mega-trends in technology – and for good reason , IoT deals with all the components of what we consider web 3.0 including Big Data Analytics, Cloud Computing and Mobile Computing .
Verso IoT experience – What have we learned from implementations all over the...Bosnia Agile
IoT projects face many obstacles on their journey from idea to end-to-end solution. Technology is less an issue, with many vendors and solutions emerging every day. This brings optimism, but also concerns about proper future proof choice and interoperability issues. Even bigger concerns are present in business model definition, business cases creation, go-to-market strategy preparation which requires organizational changes that companies need to conduct in order to be long-term successful in the IoT domain. Verso deploys many projects worldwide, focusing mainly on communication part of IoT solution, however being involved in business discussion as well. What are common technological and business obstacles and what are best practices to resolve them will be the main feature of our presentation.
Privacy aware analytics at edge using federated learningArindam Banerjee
Privacy aware analytics at edge using Federated Learning In Cloud computing or centralized approach, data-sources or sensors collect data from environment; the data is then sent to a data center placed at a geographically different location to be processed and analyzed. This approach is not suitable for the applications required low latency and quick response time. Also, in massive machine type communications (MMTC) where thousands of sensors or IoT data sources collect and send data simultaneously, bandwidth becomes a bottleneck in data transmission. On contrary, Edge computing is a distributed computing paradigm which brings computation and data storage closer to the location where it is generated, to decrease latency and to save bandwidth. Edge analytics may not be a replacement for centralized data analytics, but both can supplement each other in delivering data insights. With the increasing demand and implementation of stringent data privacy laws and growing security concerns, the concept of Federated Learning (FL) has been introduced. In FL, edge applications can use their local device data to train an Machine Learning model required by the centralized server. The edge devices then send the model updates rather than raw data to the server for aggregation. FL can serve as an enabling technology in mobile edge networks since it enables the collaborative and decentralized learning. In this talk, we will discuss about the decentralized learning approach in federated learning, implementing federated learning in edge devices, how it solves data localization, privacy and scalability issues, federated learning at edge and fog devices with practical use cases and open problems.
My slides from IoT conference Athens 2017 keynote presentation, discussing the common problems with enterprise IoT projects / digital transformation and key failure points: Waterfall vs Agile methodology and open source vs closed approach/technologies. Also presenting an example agile approach of a multi-tenant IoT Solution for a Refrigerator Manufacturer.
Internet of Things (IoT) overview powered by Red HatDavid Bericat
Introduction delivered at the Summit session with Accenture, before they presented their Connected Platform as a Service (CPaaS) which uses Red Hat JBoss Fuse and A-MQ as their core foundation technologies for integration and messaging.
Industrial IoT landscape and technology, differences between consumer and industrial IoT, Industry 4.0 and Industrial Internet.LPWAN and SIGFOX network
By bringing together the IoT with IBM Watson
™
cognitive computing
technologies, we’re infusing a new kind of thinking into objects,
systems and processes. Watson technology understands, reasons
and learns. It communicates in natural, human terms. It understands
context and nuance, enabling it to not only uncover new insights
but also unearth entirely new pathways to explore and possibilities
to imagine
Connect, Secure & Automate the Distribution Grid with CISCO SCADA RTU - Eximp...Bosnia Agile
We are proud to present one of the biggest Innovations in the Energy Utilities sector, developed from scratch to address the Smart Grid challenge of connecting hundreds of thousands of Electrical Secondary Sub-Stations, while ensuring SCADA Automation and Security in each sub-station, all in a cost-effective, easy to manage solution. While traditionally, the SCADA RTU, Router and Firewall components have been thought about as 3 different physical devices, Cisco, together with Eximprod Group, have developed a 3-in-1 device, that encompasses all 3 functionalities. We have named it the Cisco Scada Gateway. As a SCADA RTU, the device works with any SCADA Dispatcher and offers superior RTU functionality. As a Router, the device offers the full functionality of Cisco IOS having the Cisco IR809 as a hardware platform, capable of multi-protocol connectivity, including dual-sim 4G. As a Firewall, the device includes a full-features zone-based firewall solution, to segment and govern network access through the SCADA network.
The Internet of Things (IoT) is one of the hottest mega-trends in technology – and for good reason , IoT deals with all the components of what we consider web 3.0 including Big Data Analytics, Cloud Computing and Mobile Computing .
Verso IoT experience – What have we learned from implementations all over the...Bosnia Agile
IoT projects face many obstacles on their journey from idea to end-to-end solution. Technology is less an issue, with many vendors and solutions emerging every day. This brings optimism, but also concerns about proper future proof choice and interoperability issues. Even bigger concerns are present in business model definition, business cases creation, go-to-market strategy preparation which requires organizational changes that companies need to conduct in order to be long-term successful in the IoT domain. Verso deploys many projects worldwide, focusing mainly on communication part of IoT solution, however being involved in business discussion as well. What are common technological and business obstacles and what are best practices to resolve them will be the main feature of our presentation.
Privacy aware analytics at edge using federated learningArindam Banerjee
Privacy aware analytics at edge using Federated Learning In Cloud computing or centralized approach, data-sources or sensors collect data from environment; the data is then sent to a data center placed at a geographically different location to be processed and analyzed. This approach is not suitable for the applications required low latency and quick response time. Also, in massive machine type communications (MMTC) where thousands of sensors or IoT data sources collect and send data simultaneously, bandwidth becomes a bottleneck in data transmission. On contrary, Edge computing is a distributed computing paradigm which brings computation and data storage closer to the location where it is generated, to decrease latency and to save bandwidth. Edge analytics may not be a replacement for centralized data analytics, but both can supplement each other in delivering data insights. With the increasing demand and implementation of stringent data privacy laws and growing security concerns, the concept of Federated Learning (FL) has been introduced. In FL, edge applications can use their local device data to train an Machine Learning model required by the centralized server. The edge devices then send the model updates rather than raw data to the server for aggregation. FL can serve as an enabling technology in mobile edge networks since it enables the collaborative and decentralized learning. In this talk, we will discuss about the decentralized learning approach in federated learning, implementing federated learning in edge devices, how it solves data localization, privacy and scalability issues, federated learning at edge and fog devices with practical use cases and open problems.
My slides from IoT conference Athens 2017 keynote presentation, discussing the common problems with enterprise IoT projects / digital transformation and key failure points: Waterfall vs Agile methodology and open source vs closed approach/technologies. Also presenting an example agile approach of a multi-tenant IoT Solution for a Refrigerator Manufacturer.
Internet of Things (IoT) overview powered by Red HatDavid Bericat
Introduction delivered at the Summit session with Accenture, before they presented their Connected Platform as a Service (CPaaS) which uses Red Hat JBoss Fuse and A-MQ as their core foundation technologies for integration and messaging.
Industrial IoT landscape and technology, differences between consumer and industrial IoT, Industry 4.0 and Industrial Internet.LPWAN and SIGFOX network
Mike McBride will provide a look at the Industrial IoT (IIoT) landscape and the OT/IT convergence. He will cover several use cases including healthcare, entertainment and smart buildings. He will cover the challenges IIoT networking faces with emerging technologies and how edge computing will provide increased performance, security and reliability. Mike will discuss the various Edge Computing standards & opensource forums along with proposed architectures. And Mike will present new solutions being proposed (ICN, slicing, Blockchain) to support the bandwidth, latency and security requirements within Industrial verticals.
About the speaker: As Sr. Director of Innovation & Strategy, within Huawei's IP Network BU, Mike leads Industrial IoT, Edge Computing and IP/SDN architecture, standardization, and strategy across product lines and industry forums. He leads architecture and standardization activities within the IIc and BBF and has served as an IETF Working Group chair for 15 years. Mike has led emerging technology projects within opensource communities and played a key role in the formation of OPEN-O (Now ONAP). He is an Ericsson alum where he developed and directed SDN/NFV network architectures. And for many years with Cisco, Mike supported customers, worked in development teams and managed mobility, wireless and video projects across BUs. Mike began his career supporting customers at Apple Computer. He resides in Orange County, CA
Cisco data analytics in ioe_rajiv niles_2015 novCiscoKorea
시스코가 소개하는 만물인터넷 시대의 데이터 애널리틱스의 가치!
슬라이드에 대한 자세한 발표 내용은 시스코 코리아 공식 블로그(www.ciscokrblog.com/768) 나 네트워크 사이트(http://apjc.thecisconetwork.com/site/content/lang/ko/id/4537) 확인해 보실 수 있습니다.
The rise of IoT products and platforms has led to a number of challenges that need to be addressed to explore the full potential of IoT systems and their related emerging applications. This report includes a comprehensive analysis of the SoC-IoT space, highlighting the major trends and opportunities across the ecosystem. Read More: https://bit.ly/2FSIVDl.
The following list of predictions (Figure 1) explores the state of IoT in 2019 and covering IoT impact on many aspects business and technology including Digital Transformation, Blockchain, AI, and 5G.
IoT Standardization and Implementation ChallengesAhmed Banafa
The rapid evolution of the IoT market has caused an explosion in the number and variety of IoT solutions.
Additionally, large amounts of funding are being deployed at IoT startups.
Consequently, the focus of the industry has been on manufacturing and producing the right types of hardware to enable those solutions.
The internet of things the next technology revolutionusman sarwar
This presentation provides overview of IoT technology from multifold perspective. It illustrates the IoT technological development areas, Market trends, platforms, IoT research and application trends.
The Internet of Things - beyond the hype and towards ROIPerry Lea
How do you move beyond the hype of IoT and towards profitability? This short lecture examines the hype and origin of IoT and the reality of the industry. It then talks about my experiences with the industry, customers, and technologists. Some have outright failed in IoT projects, others are succeeding.
Get beyond the prototype and lab experiment.
The Internet of things describes physical objects that are embedded with sensors, processing ability, software, and other technologies that connect and exchange data with other devices and systems over the Internet or other communications networks.
In the coming years, IoT will look completely different than it does today. IoT is a greenfield market.
New players, with new business models, approaches, and solutions, can appear out of nowhere and overtake incumbents.
New trends of IoT in 2018 and beyond (SJSU Conference ) Ahmed Banafa
The Internet of things (IoT) is growing rapidly and 2018 will be a fascinating year for the IoT industry. IoT technology continues to evolve at an incredibly rapid pace. Consumers and businesses alike are anticipating the next big innovation. They are all set to embrace the ground-breaking impact of the Internet of Things on our lives like ATMs that report crimes around them, forks that tell you if you are eating fast, or IP address for each organ of your body for doctors to connect and check
The semiconductor industry is constantly confronted by design and device-integration challenges, since IoT applications and consumers demand small, portable, and multi-functional electronics. With hardware designing constantly evolving, a new class of designers is stepping up to take on these challenges, using various silicon implementations. The advantages of system-on-a-chip (SoC) over other silicon implementations make it the most suitable solution for intelligent edge computing in IoT applications.
The rise of IoT products and platforms has led to a number of challenges that need to be addressed to explore the full potential of IoT systems and their related emerging applications. This report includes a comprehensive analysis of the SoC-IoT space, highlighting the major trends and opportunities across the ecosystem.
To purchase the full report, write to us at info@netscribes.com
Visit www.netscribes.com
In this seminar you will listen to in depth explanation of the hottest technologies in 2019 and beyond. Prof. Banafa will discuss each technology its applications and challenges with real life cases. The interaction among all the four technology will be explored with focus on future trends in each of technology. As all technologies can be summarized in one word IBAC (IoT, Blockchain, AI, Cybersecurity) they can be explained with the following words: IoT: senses, Blockchain: remembers, AI: thinks, and Cybersecurity: protects.
Hierarchical Digital Twin of a Naval Power SystemKerry Sado
A hierarchical digital twin of a Naval DC power system has been developed and experimentally verified. Similar to other state-of-the-art digital twins, this technology creates a digital replica of the physical system executed in real-time or faster, which can modify hardware controls. However, its advantage stems from distributing computational efforts by utilizing a hierarchical structure composed of lower-level digital twin blocks and a higher-level system digital twin. Each digital twin block is associated with a physical subsystem of the hardware and communicates with a singular system digital twin, which creates a system-level response. By extracting information from each level of the hierarchy, power system controls of the hardware were reconfigured autonomously. This hierarchical digital twin development offers several advantages over other digital twins, particularly in the field of naval power systems. The hierarchical structure allows for greater computational efficiency and scalability while the ability to autonomously reconfigure hardware controls offers increased flexibility and responsiveness. The hierarchical decomposition and models utilized were well aligned with the physical twin, as indicated by the maximum deviations between the developed digital twin hierarchy and the hardware.
Industrial Training at Shahjalal Fertilizer Company Limited (SFCL)MdTanvirMahtab2
This presentation is about the working procedure of Shahjalal Fertilizer Company Limited (SFCL). A Govt. owned Company of Bangladesh Chemical Industries Corporation under Ministry of Industries.
Overview of the fundamental roles in Hydropower generation and the components involved in wider Electrical Engineering.
This paper presents the design and construction of hydroelectric dams from the hydrologist’s survey of the valley before construction, all aspects and involved disciplines, fluid dynamics, structural engineering, generation and mains frequency regulation to the very transmission of power through the network in the United Kingdom.
Author: Robbie Edward Sayers
Collaborators and co editors: Charlie Sims and Connor Healey.
(C) 2024 Robbie E. Sayers
Student information management system project report ii.pdfKamal Acharya
Our project explains about the student management. This project mainly explains the various actions related to student details. This project shows some ease in adding, editing and deleting the student details. It also provides a less time consuming process for viewing, adding, editing and deleting the marks of the students.
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2. Outline
• Define IoT
• Benefits of IoT
• Applications of IoT
• IoT Market Forcasts
• Pillars of IoT
• IoT Reference Model
• IoT infrastructure
• Underlying IoT Technologies
2
• A typical IoT Deployment
• Sensors
• LPWAN Technologies
• Big Players in IoT
• IoT Challenges
• Training & Certifications in IoT
• Strategies for Success
• References
3. What is IoT?
• A worldwide network of connected devices.
• Interconnection of people, data, things and processes.
• Processes realize the value of connection between the other 3 elements.
• M2M, P2P, M2P (all bidirectional)
• Harvesting the power of Internet in gathering information from our environment.
• Consumer vs. Industrial IoT
• Wireless Sensors and Actuators are essential to IoT.
• But there are many more aspects to it such as connectivity, data collection and data analytics.
3
4. Benefits of IoT
4
Real-Time Data Availability
Forecasting Capability
Rapid Response Capability
Process optimization
Resource Consumption Optimization
Automation
6. Market Forecasts
• More than 200 billion connected objects by 2020. (IDC)
• Worth $1.3 trillion by 2020
• Security investments over $500M by 2018. (Gartner)
• Benefits almost $2Trillion in 2020 alone. (Gartner)
• Investments growing 32% annually until 2022. (Cisco)
• Half of total spending in manufacturing, Retail, Information Services, Finance (Cisco)
Source: Cisco
6
7. Pillars of IoT
Cloud & Fog ComputingConnectivity
Security
Data Analytics
App-enabled Network Devices
Automation & Management
7
12. Sensors
• Various Types
• Analog input, digital output
• Wireless connectivity
• Constrained
• Operating Systems
• MicroControllers
12
13. Long Range Wireless Connectivity
Low Power WAN (LPWAN)
• Low bitrates ( ~ kbps)
• Mostly used in unlicensed bands
• Distinct from consumer wireless WAN
Decision Factors
Bandwidth
SizeCoverage
Power
EMI
Security Range
Standards
Frequency
Deployment CostSuppliers
13
14. LPWAN Technologies
LoRa
• Sub-GHz
• Spread Spectrum
• GW-based
• MAC: LoRaWAN
SymphonyLink
• Almost open source
• Limited Downlink
• IBM, Cisco, …
SigFox
• Based on UNB
• Popular in Europe
• Infrequent small
bursts of data
• <10Km (Urban)
<50Km (Rural)
• Proprietary
• Limited Downlink
• Tex. Inst., SiliconLabs
NB-IoT
• Cellular
• Popular in Europe
• 3GPP
• No mobility
• No voice
• Very low power
• Little deployments
LTE-M
• Cellular
• Popular in NA
• Mobility support
• Low Latency
• Best Security
• Good BW
• Low power
Consumption
14
16. Big Players
• IoT World Forum includes many more companies
• Cisco, MS, Intel, Dell formed OpenFog consortium.
Cisco
IBM
Intel
Microsoft
GE
Dell
ZigBee
Alliance
VMWare
16
17. IoT Challenges
Security
Shortage of expertise
Business model and rational
Integration with current IT infrastructure
Budgeting
Finding a suitable IoT platform
Lack of standards
Integration of sensors & actuators
within the physical environment
17
18. Training and Certification
Focus on IT/OT convergence
IT : Concerned with managing connected devices, security, scalability, …
OT: Concerned with the main operations of the business
Microsoft: Focus on Integrating IoT into MS-Azure
Available on EdX.
Cisco: 1- a CCNA option – partner with Rockwell automation
2- a Cisco Industrial Networking Specialist (IMINS)
GE Digital: Optimizing Predix platform
Zigbee DotDot: A universal open source IoT language allowing different devices on heterogeneous
networks to interact.
18
19. Strategies for Success
End-to-End
solutions
• Provide a
complete
solution
encompassing
sensors all the
way to user
interface.
Clear business
plans and policies
• 75% of IoT
projects
currently fail
due to lack of
management
interest and
clear IoT
strategies.
Industries
• Development
• Manufacturing
• Consultation
• Service
“… as a Service”
• Sell a service not
a commodity
• Novel
Applications
19
20. References
• Cisco Market Research
http://docs.media.bitpipe.com/io_13x/io_138814/item_1588083/Pre
pare%20to%20Succeed%20with%20the%20IoT.pdf
• Internet of Things Agenda, online magazine
• Cisco IoT training curriculum
20