An introductory video and presentation looking at Internet of Things (IoT) and differences between IoT and #IIoT. Examples are provided to help clarify the understanding.
IOT IN MANUFACTURING , ndustrial Internet of Things (IIoT) is going full throttle – increasing connectivity, generating data, and unlocking potential like never before. Now it’s time to capitalize on the full power of this data. Altair knows how to take full advantage of data to fuel innovation, drive new opportunities, and accelerate your smart manufacturing transformation.
Industry 4.0 represents the fourth industrial revolution in manufacturing and industry. Industry 4.0 is the current industrial transformation with automation, data exchanges, cloud, cyber-physical systems, robots, Big Data, AI, IoT and (semi-)autonomous industrial techniques to realize smart industry and manufacturing goals in the intersection of people, new technologies and innovation. IoT (Internet of Things), the convergence of IT and OT, rapid application development, digital twin simulation models, cyber-physical systems, advanced robots and cobots, additive manufacturing, autonomous production, consistent engineering across the entire value chain, thorough data collection and provisioning, horizontal and vertical integration, the cloud, big data analytics, virtual/augmented reality and edge computing amidst a shift of intelligence towards the edge (artificial intelligence indeed with a convergence of AI and IoT and other technologies): these are some of the essential technological components of the fourth industrial revolution. Those are quite a lot of terms and components indeed. Yet, Industry 4.0 is a rather vast vision and, increasingly, a vast reality that also stretches beyond merely these technological aspects. It is an end-to-end industrial transformation.
What we got covered?
1) What Is Industrial IoT
2) Application of Industrial IOT
3) Machine To Machine (M2M)
4) Benefits of Industrial IoT
5) Vendors in Industrial IoT
6) Features of Industrial IoT
Industry 4.0 is a name given to the current trend of automation and data exchange in manufacturing technologies. It includes cyber-physical systems, the Internet of things, cloud computing and cognitive computing. Industry 4.0 is commonly referred to as the fourth industrial revolution.
Industry 4.0 has widespread application across Industries (Manufacturing, Logistics, Mobility etc.). In case of manufacturing and processing industries Industry 4.0 means Smart Manufacturing using IIoT (Industrial Internet of Things or simply Industrial IoT) in a connected smart factory.
It enables an Organization to make smart data-driven decisions based on Big Data, Artificial Intelligence and Machine Learning. Industry 4.0 IIoT has several benefits such as Resource Optimization, Cost Reduction, Automation, Predictive Maintenance and Prescriptive Analytics and Control etc.
An introductory video and presentation looking at Internet of Things (IoT) and differences between IoT and #IIoT. Examples are provided to help clarify the understanding.
IOT IN MANUFACTURING , ndustrial Internet of Things (IIoT) is going full throttle – increasing connectivity, generating data, and unlocking potential like never before. Now it’s time to capitalize on the full power of this data. Altair knows how to take full advantage of data to fuel innovation, drive new opportunities, and accelerate your smart manufacturing transformation.
Industry 4.0 represents the fourth industrial revolution in manufacturing and industry. Industry 4.0 is the current industrial transformation with automation, data exchanges, cloud, cyber-physical systems, robots, Big Data, AI, IoT and (semi-)autonomous industrial techniques to realize smart industry and manufacturing goals in the intersection of people, new technologies and innovation. IoT (Internet of Things), the convergence of IT and OT, rapid application development, digital twin simulation models, cyber-physical systems, advanced robots and cobots, additive manufacturing, autonomous production, consistent engineering across the entire value chain, thorough data collection and provisioning, horizontal and vertical integration, the cloud, big data analytics, virtual/augmented reality and edge computing amidst a shift of intelligence towards the edge (artificial intelligence indeed with a convergence of AI and IoT and other technologies): these are some of the essential technological components of the fourth industrial revolution. Those are quite a lot of terms and components indeed. Yet, Industry 4.0 is a rather vast vision and, increasingly, a vast reality that also stretches beyond merely these technological aspects. It is an end-to-end industrial transformation.
What we got covered?
1) What Is Industrial IoT
2) Application of Industrial IOT
3) Machine To Machine (M2M)
4) Benefits of Industrial IoT
5) Vendors in Industrial IoT
6) Features of Industrial IoT
Industry 4.0 is a name given to the current trend of automation and data exchange in manufacturing technologies. It includes cyber-physical systems, the Internet of things, cloud computing and cognitive computing. Industry 4.0 is commonly referred to as the fourth industrial revolution.
Industry 4.0 has widespread application across Industries (Manufacturing, Logistics, Mobility etc.). In case of manufacturing and processing industries Industry 4.0 means Smart Manufacturing using IIoT (Industrial Internet of Things or simply Industrial IoT) in a connected smart factory.
It enables an Organization to make smart data-driven decisions based on Big Data, Artificial Intelligence and Machine Learning. Industry 4.0 IIoT has several benefits such as Resource Optimization, Cost Reduction, Automation, Predictive Maintenance and Prescriptive Analytics and Control etc.
IIoT is often presented as a revolution that is changing the face of industry in a profound manner. In reality, it is an evolution that has its origins in technologies and functionalities developed by visionary automation suppliers more than 15 years ago. As the necessary global standards mature, it may well take another 15 years to realise the full potential of IIoT. Over this period of time the changes to the industry will be far reaching. The good news is that end users and machine builders can now leverage their existing investments in technology and people while taking advantage of available new IIoT technologies.
Introducing IIoT solutions using a “wrap & re-use” approach, rather than a “rip & replace” approach will enable greater business control. In addition, this measured approach will drive the evolution towards a smart manufacturing enterprise that is more efficient, safer, and sustainable. The emergence of the IIoT megatrend has created both hope and confusion among stakeholders responsible for operating industrial plants. Much of the early hype was focused on the impact of technological advancements on existing automation platforms.
smart manufacturing is a term that is transforming the huge industry scenario. the works are basically done by the robots and all the system have been automated. so, a huge transformation in there in the employment. the pillars that are required for smart manufacturing is also explained.
Management Information Systems presentation on Industry 4.0
-> A Timeline of Industrial Revolutions The Genesis of 4.0
-> Components of Industry 4.0 Why 4.0?
-> Use Cases
-> Smart Logistics and Warehousing Quality Management
-> The Future Ahead: 5.0?
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.
The internet of things (IoT) is the internetworking of physical devices, vehicles, buildings and other items—embedded with electronics, software, sensors, actuators, and network connectivity that enable these objects to collect and exchange data.
The next big discovery after the .com boom is the internet of things. It is the technique to impart the ability to the non-living objects or our daily life gadgets to sense and understand from our surrounding environment.
The Internet of Things Training Course, IoT Training covers What the IoT is about, innovation patterns, organizations and joining. Figure out how to function with Building Connected Devices.
IoT Training Course participants will find out about the elements of the IoT markets, innovation, patterns, arranging, outline and the meeting of stages and administrations, with an exceptional spotlight on the item plan, design and execution.
This is a central IoT course covering the innovations behind the Internet of Things and associated gadgets.
IoT Training By Tonex:
Tonex covers all the IoT bases with several different courses including the 2-day Internet of Things Training course that covers a wide variety of topics such as:
Concepts and definitions of the Internet of Things
Applications
IoT standards
Requirements
IoT enabling technologies
IoT architecture
Security
Cloud computing and the Internet of Things
IoT platforms
Course Content :
What is the Internet of Things (IoT)?
Overview of IoT Connectivity Methods and Technologies
Evaluation of IoT
It is predicted that 50 to 100 billion things will be electronically connected by the year 2020. This Internet of Things (IoT) will fuel technology innovation by creating the means for machines to communicate many different types of information with one another.
With all objects in the world connected, lives will be transformed. But the success of IoT depends strongly on standardization, which provides interoperability, compatibility, reliability, and effective operations on a global scale.
Recognizing the value of IoT to industry and the benefits this technology innovation brings to the public, the IEEE Standards Association (IEEE-SA) has a number of standards, projects and events that are directly related to creating the environment needed for a vibrant IoT.
Why Choose Tonex?
Presenting highly customized learning solutions is what we do. For over 30 years Tonex has worked with organizations in improving their understanding and capabilities in topics often with new development, design, optimization, regulations and compliances that, frankly, can be difficult to comprehend.
Ratings tabulated from student feedback post-course evaluations show an amazing 98 percent satisfaction score.
Reasonably priced classes taught by the best trainers is the reason all kinds of organizations from Fortune 500 companies to government’s most important agencies return for updates in courses and hands-on workshops
For more information, questions, comments, Contact us.
Internet of Things ( IoT ) Training
https://www.tonex.com/training-courses/the_internet_of_things_training/
Industry 4.0 promises great increase in productivity and profitability. This presentation covers the basics of this new manufacturing approach and it separates facts from fiction.
IIoT is often presented as a revolution that is changing the face of industry in a profound manner. In reality, it is an evolution that has its origins in technologies and functionalities developed by visionary automation suppliers more than 15 years ago. As the necessary global standards mature, it may well take another 15 years to realise the full potential of IIoT. Over this period of time the changes to the industry will be far reaching. The good news is that end users and machine builders can now leverage their existing investments in technology and people while taking advantage of available new IIoT technologies.
Introducing IIoT solutions using a “wrap & re-use” approach, rather than a “rip & replace” approach will enable greater business control. In addition, this measured approach will drive the evolution towards a smart manufacturing enterprise that is more efficient, safer, and sustainable. The emergence of the IIoT megatrend has created both hope and confusion among stakeholders responsible for operating industrial plants. Much of the early hype was focused on the impact of technological advancements on existing automation platforms.
smart manufacturing is a term that is transforming the huge industry scenario. the works are basically done by the robots and all the system have been automated. so, a huge transformation in there in the employment. the pillars that are required for smart manufacturing is also explained.
Management Information Systems presentation on Industry 4.0
-> A Timeline of Industrial Revolutions The Genesis of 4.0
-> Components of Industry 4.0 Why 4.0?
-> Use Cases
-> Smart Logistics and Warehousing Quality Management
-> The Future Ahead: 5.0?
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.
The internet of things (IoT) is the internetworking of physical devices, vehicles, buildings and other items—embedded with electronics, software, sensors, actuators, and network connectivity that enable these objects to collect and exchange data.
The next big discovery after the .com boom is the internet of things. It is the technique to impart the ability to the non-living objects or our daily life gadgets to sense and understand from our surrounding environment.
The Internet of Things Training Course, IoT Training covers What the IoT is about, innovation patterns, organizations and joining. Figure out how to function with Building Connected Devices.
IoT Training Course participants will find out about the elements of the IoT markets, innovation, patterns, arranging, outline and the meeting of stages and administrations, with an exceptional spotlight on the item plan, design and execution.
This is a central IoT course covering the innovations behind the Internet of Things and associated gadgets.
IoT Training By Tonex:
Tonex covers all the IoT bases with several different courses including the 2-day Internet of Things Training course that covers a wide variety of topics such as:
Concepts and definitions of the Internet of Things
Applications
IoT standards
Requirements
IoT enabling technologies
IoT architecture
Security
Cloud computing and the Internet of Things
IoT platforms
Course Content :
What is the Internet of Things (IoT)?
Overview of IoT Connectivity Methods and Technologies
Evaluation of IoT
It is predicted that 50 to 100 billion things will be electronically connected by the year 2020. This Internet of Things (IoT) will fuel technology innovation by creating the means for machines to communicate many different types of information with one another.
With all objects in the world connected, lives will be transformed. But the success of IoT depends strongly on standardization, which provides interoperability, compatibility, reliability, and effective operations on a global scale.
Recognizing the value of IoT to industry and the benefits this technology innovation brings to the public, the IEEE Standards Association (IEEE-SA) has a number of standards, projects and events that are directly related to creating the environment needed for a vibrant IoT.
Why Choose Tonex?
Presenting highly customized learning solutions is what we do. For over 30 years Tonex has worked with organizations in improving their understanding and capabilities in topics often with new development, design, optimization, regulations and compliances that, frankly, can be difficult to comprehend.
Ratings tabulated from student feedback post-course evaluations show an amazing 98 percent satisfaction score.
Reasonably priced classes taught by the best trainers is the reason all kinds of organizations from Fortune 500 companies to government’s most important agencies return for updates in courses and hands-on workshops
For more information, questions, comments, Contact us.
Internet of Things ( IoT ) Training
https://www.tonex.com/training-courses/the_internet_of_things_training/
Industry 4.0 promises great increase in productivity and profitability. This presentation covers the basics of this new manufacturing approach and it separates facts from fiction.
Smart computing, next-generation computing, is a combination of hardware, software, and network to provide real-time awareness of real-time systems. The real world gets smart by connecting it to a computer, and computer get smart by connecting to the real world.
Seminar Participants Will Learn:
1. How to develop digital strategies for IIoT projects
2. How to advance my STEM career in the global digital economy
3. How to identify key requirements in IIoT for business leadership
4. What career opportunities are available in IIoT
5. How to measure the success and value of IIoT adoption and practices
The Most Definitive guide to Industrial IoT ImplementationAditya Basu
Industrial IoT has the potential of USD 15.3 trillion to the global economy by 2030 subjected to an improvement of 1-1.5%. Industrial Internet is a revolutionary technology that enhances the Industrial environment with the IoT capabilities. IIoT helps to solve the bottlenecks in the business environment, provides operational efficiency, increases productivity and reduces the complexity of the process.
The main benefit of Industrial IoT is the connected enterprise that enhances the visibility across various departments and benefits with a smooth workflow. According to General Electric CEO, Jeff Immelt, IIoT has twice the market potential than that of the consumer IoT.
In this Guide you will know everything about
a) The Connected Factory! Role of IIoT
b) Evolution of IIoT to Industry 4.0
c) Industrial IoT Ecosystem
d) Value Chain Players today and what you can learn from them
e) How IIoT is Different from IoT
f) Technology Drivers and Adoption
g) Market Indicators and why you should jump the Bandwagon NOW!
h) Market Revenues and Areas of Focus
i) The Digitization Wave
j) Real World Industrial IoT Case Studies Including Solutions & Outcomes
The manufacturing sector is witnessing a path-breaking convergence of physical and digital worlds. By 2020, manufacturers will invest up to US $ 70 billion in Industrial Internet of Things (IIoT).
Now It Is Easily To Be Maintain The Industrial Machine- Part 2Infyiot Solutions
In today’s fast-growing industrial world, the Internet of Things has emerged as a transformative force. Among its many applications, the Industrial Internet of Things stands out in improving operations and productivity to attain business growth. At the heart of this technological revolution is the IIoT Gateway, a key component that facilitates seamless connectivity by providing real-time data for machine analytics.
Jakarta - Sutedjo Tjahjadi, Managing Director Datacomm Cloud Business hadir sebagai pembicara di International Consumer Electronic Expo Indonesia (ICEEI) 2019. ICEEI merupakan pameran produk-produk consumer electronic dengan teknologi terkini yang berasal dari Tiongkok.
IIoT Framework for SME level Injection Molding Industry in the Context of Ind...Dr. Amarjeet Singh
The Internet of Things (IoT) is a hype topic for nearly a decade now. Broadly growing, millions of devices get direct access to the Internet provides plenty of applications such as smart homes or mobile health management. This trend can also be found in the industry where IoT components hardened for these environments are introduced, called Industrial IoT (IIoT) devices which can be either sensors or actors, as well as mobile equipment such as smartphones, tablets, and smart glasses. Consequently, mobile communication becomes universal in smart factories. IIoT devices provide massive data on temperature, pressure, machine states, etc. But still, most of the SME level industries in the Asian region are new to these technological advancements. They still operate their facilities ith conventional setups without absorbing the new opportunities which are presented by IoT.
In the plastic injection molding industry, process parameters perform a significant role in the quality of the output product. During the manufacturing process, these process parameters have to deal with various factors such as quality and type of materials, requirement tolerance levels of the output product, Environmental conditions like temperature and humidity, etc. Injection molding has been a challenging process for many SME level manufacturers to produce products while meeting the quality requirements at the lowest cost. Most of them are unable to reach the global market in the injection molding industry due to the non-availability of the proper methods to determine the process parameters for injection molding. During production, quality characteristics may differ due to drifting or shifting of processing conditions caused by machine wear, environmental change, or operator fatigue. By determining the optimal process parameter settings productivity and quality will increase while reducing the cost of production.
In this paper, we suggest an Industrial IoT framework that can develop for small- and medium-sized enterprises (SMEs) level industries to optimize their production facility. With the presented framework SME level industries can start to inherit IoT devices into their production floor to manage and monitor production parameters in real-time while improving the quality of the production.
Internet of Things Insights of Applications in Research and Innovation to Int...ijtsrd
In existing world IOT find a great attention from researchers, it becomes an vital technology that offers a well defined communications between objects and machines. That will offer immediate access to information about the real world and objects in it leading to innovative facilities and increase in effectiveness and output. The IoT developments address the whole IoT spectrum form the devices at the edge to cloud and data centres on the backend and everything in between through ecosystems are generated by industry, research and application stakeholders that enable real world use cases to quicken the in IoT and establish open interoperability standards and common architectures for IoT solutions. This paper studies the perception of many IoT applications and innovation of original connected technologies to the challenges that in front of the execution of the IoT. Deepika Bairagee | Aditya Sharma "Internet of Things: Insights of Applications in Research and Innovation to Integrated Ecosystem" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-4 , June 2020, URL: https://www.ijtsrd.com/papers/ijtsrd31213.pdf Paper Url :https://www.ijtsrd.com/computer-science/other/31213/internet-of-things-insights-of-applications-in-research-and-innovation-to-integrated-ecosystem/deepika-bairagee
The process of reducing a given DFA to its minimal form is called as minimization of DFA. DFA minimization is also called as Optimization of DFA and uses partitioning algorithm.
NLP is a tool for computers to analyse, comprehend, and derive meaning from natural language in an intelligent and useful way. Natural language processing helps computers communicate with humans in their own language and scales other language-related tasks.
As a student, you should be developing work ethic and etiquette skill sets to prepare you for the work environment. Developing professional habits and manners is more important now than ever before.
Writing skills include all the knowledge and abilities related to expressing yourself through the written word. Here you can find activities to practise your writing skills.
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High speed computing was implemented in supercomputer for scientific research. HPC clusters provide the most efficient, flexible, cost effective computing environments for HPC simulations.
Power BI is a business analytics service by Microsoft. BI
Microsoft Power BI is a suite of business intelligence (BI), reporting, and data visualization products and services for individuals and teams. You can access your data from anywhere with the Power BI app.
AVL tree Named after their inventor Adelson, Velski & Landis, is a self-balancing Binary Search Tree (BST) where the difference between heights of left and right subtrees cannot be more than one for all nodes.
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UiPath Test Automation using UiPath Test Suite series, part 4
Industrial Internet of Things (IIoT)
1. Industrial Internet of Things
(IIoT)
Mr. Pradip Ashok Chougule
Department of Computer Engineering
International Institute of Information Technology, I²IT
www.isquareit.edu.in
International Institute of Information Technology, I²IT, P-14, Rajiv Gandhi Infotech Park, Hinjawadi Phase 1, Pune - 411 057 Phone - +91 20
22933441/2/3 | Website - www.isquareit.edu.in | Email - info@isquareit.edu.in
2. Contents
• What is IIoT?
• What’s the difference between IoT and IIoT?
• Why Industrial IoT?
• IIoT infrastructure
• IIoT deployment architecture
• Drivers of IIoT
• IIoT technologies
• IIoT applications
• Vendors in IIoT
• Summary
International Institute of Information Technology, I²IT, P-14, Rajiv Gandhi Infotech Park, Hinjawadi Phase 1, Pune - 411 057
Phone - +91 20 22933441/2/3 | Website - www.isquareit.edu.in | Email - info@isquareit.edu.in
2
3. What is IIoT?
• The industrial internet of things (IIoT) is the
use of smart sensors and actuators to enhance
manufacturing and industrial processes. -
(Defined By: Margaret Rouse)
• The IIoT consists of internet-connected
machinery and the advanced analytics
platforms that process the data they produce.
- (Reference from: www.hpe.com)
International Institute of Information Technology, I²IT, P-14, Rajiv Gandhi Infotech Park, Hinjawadi Phase 1, Pune - 411 057
Phone - +91 20 22933441/2/3 | Website - www.isquareit.edu.in | Email - info@isquareit.edu.in 3
4. Difference between IoT and IIoT?
• The IIoT is a subcategory of the IoT, which also
includes consumer-facing applications such as
wearable devices, smart home technology and
self-driving cars.
• Sensor-embedded devices, machines and
infrastructure that transmit data via the
Internet and are managed by software are the
hallmark of both concepts.
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4
5. Why Industrial IoT?
• For any business that deals with the
production and/or transportation of physical
goods, IIoT can create game-changing
operational efficiencies and present entirely
new business models.
International Institute of Information Technology, I²IT, P-14, Rajiv Gandhi Infotech Park, Hinjawadi Phase 1, Pune - 411 057
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6. • The following are examples of ways in which
IIoT technology could be applied in diverse
industries.
– Production
– Supply Chain
– Building Management
– Healthcare
– Retail
International Institute of Information
Technology, I²IT, P-14, Rajiv Gandhi Infotech
Park, Hinjawadi Phase 1, Pune - 411 057
Phone - +91 20 22933441/2/3 | Website -
6
7. IIoT infrastructure
International Institute of Information Technology, I²IT, P-14, Rajiv Gandhi Infotech Park, Hinjawadi Phase 1, Pune - 411 057
Phone - +91 20 22933441/2/3 | Website - www.isquareit.edu.in | Email - info@isquareit.edu.in
Source: TechTarget 7
8. IIoT deployment architecture
International Institute of Information Technology, I²IT, P-14, Rajiv Gandhi Infotech Park, Hinjawadi Phase 1, Pune - 411 057
Phone - +91 20 22933441/2/3 | Website - www.isquareit.edu.in | Email - info@isquareit.edu.in 8Source: https://subscription.packtpub.com/book/business/9781788832687/1/ch01lvl1sec15/industrial-iot-
deployment-architecture
9. Drivers of IIoT
• Technology:
– Smart Sensors, Robotics & Automation,
Augmented/Virtual reality, Big Data Analytics,
Cloud Integration, Software applications, Mobile,
Low power Hardware devices and Scalability of IP
address, etc. is a major driver for the Industrial
Internet.
International Institute of Information
Technology, I²IT, P-14, Rajiv Gandhi Infotech
Park, Hinjawadi Phase 1, Pune - 411 057
Phone - +91 20 22933441/2/3 | Website -
9
10. • Customer Behavior:
– The edge that IIoT gives to enterprises over their
competitor helps them achieve better customer
satisfaction and retention through value addition.
International Institute of Information
Technology, I²IT, P-14, Rajiv Gandhi Infotech
Park, Hinjawadi Phase 1, Pune - 411 057
Phone - +91 20 22933441/2/3 | Website -
10
11. • Macro-Economic Drivers:
– Government policies like Industry 4.0, Smart
Factories, Make In India, Make In China 2025 &
Smart Cities, Japan’s Industrial Value Chain
Initiative Foum, Support of Green initiatives,
Rising Energy & crude oil prices, Favorable FDI
policies, Policies by regulatory bodies, etc. works
totally in favour of the IIoT evolution.
International Institute of Information
Technology, I²IT, P-14, Rajiv Gandhi Infotech
Park, Hinjawadi Phase 1, Pune - 411 057
Phone - +91 20 22933441/2/3 | Website -
11
12. IIoT technologies
• Current and upcoming IIoT technologies are:
– Digital twins
– Electronic logging device (ELD)
– Radio-frequency identification (RFID)
– Intelligent Edge
– Predictive maintenance
International Institute of Information Technology, I²IT, P-14, Rajiv Gandhi Infotech Park, Hinjawadi Phase 1, Pune - 411 057
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13. IIoT applications
• Autonomous vehicles: Free-roaming robots move
across factory floors
• Machine utilisation: Making the most of industrial
assets
• Operator productivity: Connected tools eliminate
human error
• Power management: Building automation lowers
energy costs
• Quality control: Vision systems deliver perfect
products, time and again
• Smart logistics: Keeping track of assets in real-time
• Wearables: Ensuring worker safety at all times
International Institute of Information
Technology, I²IT, P-14, Rajiv Gandhi
Infotech Park, Hinjawadi Phase 1, Pune -
411 057
Phone - +91 20 22933441/2/3 | Website -
13
14. Vendors in IIoT
• There are a number of vendors with IIoT platforms,
including:
– ABB: a power and robotics company.
– IoT System by Cisco: a networking company.
– Fanuc: a supplier of industrial automation equipment.
– Predix by GE Digital: an energy management company.
– Connected Performance Services by Honeywell: a software-industrial
company.
– Connyun by Kuka: a manufacturer of industrial robots (created in
partnership with Infosys, an IT consulting firm).
– Wonderware by Schneider Electric: an energy management company.
– MindSphere by Siemens: an industrial manufacturing company.
International Institute of Information
Technology, I²IT, P-14, Rajiv Gandhi Infotech
Park, Hinjawadi Phase 1, Pune - 411 057
Phone - +91 20 22933441/2/3 | Website -
14
15. Summary
• The endless unfolding of new technologies have added
up to a huge list of the “Next Big Thing”. However not
every evolving technology has the potential to break
through the business and social landscape.
• McKinsey Global Institute has estimated that IoT will
have a potential economic impact of up to $6.2 trillion
by 2025.
• It also has the potential to drive productivity across $36
trillion and operating costs across multiple industries,
including manufacturing, health care, and mining.
International Institute of Information Technology, I²IT, P-14, Rajiv Gandhi Infotech Park, Hinjawadi Phase 1, Pune - 411 057
Phone - +91 20 22933441/2/3 | Website - www.isquareit.edu.in | Email - info@isquareit.edu.in 15
16. Thank You
For Further details, Please contact
Mr. Pradip Ashok Chougule
pradipc@isquareit.edu.in
Department of Computer Engineering
Hope Foundation’s
International Institute of Information Technology, I²IT Pune
P-14, Rajiv Gandhi Infotech Park, Hinjawadi Phase 1,
Pune - 411 057
Phone - +91 20 22933441/2/3
Website - www.isquareit.edu.in | Email - info@isquareit.edu.in
International Institute of Information Technology, I²IT, P-14, Rajiv Gandhi Infotech Park, Hinjawadi Phase 1, Pune - 411 057
Phone - +91 20 22933441/2/3 | Website - www.isquareit.edu.in | Email - info@isquareit.edu.in 16