Engineer Sensors For Digital Transformation Webinar PPTSadatulla Zishan
Do you want to know the current Industrial sensor demands? Are you facing challenges in identifying the right #Industrial protocol? Want to know how to interface the #sensors with different industrial protocols?
Don't worry, we have answered these questions in a focused webinar on #sensorengineering titled “Engineer Sensors for Digital Transformation” on 9th June 2021 2021 at 12 PM EST (USA, Canada Time).
Our expert panelist Mr. Sarang P, Embedded Design Expert joined with Mr. Namdev Nayak, Embedded Design Specialist guided the attendees on the industrial sensors and trending communication protocols in field devices.
In the 60 minutes of the #webinar, they covered:
1. Overview of the industrial sensors and #communicationprotocols
2. How to choose the right communication protocol & sensor when designing
3. Architecture and implementation of #industrialsensor & its various components
4. How is AI implemented in sensor modules
You can view the webinar recording by clicking on the link https://youtu.be/zpknpt4_uhQ
Please feel free to share these links with your colleagues who may be interested.
If you have any queries or require more information regarding the topic or wish to know more about Utthunga you can mail us at contact@utthunga.com or visit our website https://utthunga.com/
We live in a world of accelerating change. As more and more
of the physical world is digitized and moves online, information
now spreads to the global masses in a matter of seconds
rather than days. People and devices communicate
with increasing ease and efficiency, and the resulting deluge
of data is filtered to provide each user with the relevant information they need.
OPC UA Security: Native and Add-on Solutionsteam-WIBU
The Industrial Internet of Things has set the stage for the convergence of Operations Technology (OT) and Information Technology (IT), that is, the plant floor and the higher-level IT infrastructure. One of the many aspects of this transitional journey is represented by M2M communications.
OPC UA is a multi-platform, plug & play Information Exchange Standard for industrial smart automation and cloud networking. It standardizes communications within machines, between machines, and from machines to smart systems, securely networked with IoT architectures.
As a member of the OPC Foundation, Wibu-Systems has been an early adopter of the OPC UA standard in Industrie 4.0 projects like IUNO, the German national reference project for IT security in Industrie 4.0, S4SmartPro, the key finder prototype production line of SmartFactoryKL, and OpSit, the optimal use of smart items technologies in healthcare.
As recently pointed out in the Industrial Internet Security Framework as well, it is endpoints, i.e. the device or cloud-based components that have interfaces for network communication, that are particularly vulnerable in a world of cyber-physical systems connected to open networks. The Unified Automation ANSI C based and High Performance OPC UA SDKs, powered by CodeMeter Embedded, fully support the OPC UA defined Security Profiles and configurations and provide even stronger security for modern M2M communications. Secret information, like RSA private keys, certificates, and trust lists, is stored in a hardware secure element and protected from theft and tampering attacks. In a time when intellectual property is shifting in the value chain from hardware to software, manufacturers now also have new opportunities to capitalize on their software and offer feature-based, time-based, version-based, or pay-per-use models to scale up their offerings, expand their market share, and produce recurrent revenues.
In this presentation, we are going to navigate you through a journey of exploration that will touch upon:
* The elements of innovation in smart manufacturing
* The connection requirements for M2M in the IIoT age
* The building blocks of the OPC Unified Architecture
* Use cases that are accelerating the rise of Smart Factories
* The integration of CodeMeter in the OPC UA standard
* The OPC UA security extension for endpoints
Working with Windows, Linux, macOS, or Android? With minimal embedded controllers up to massive cloud infrastructures? OPC UA and CodeMeter are equally suited, scalable, and secure, and most of all integrated in a streamlined fashion to provide the ultimate technology in access control, authentication, and encryption.
Watch the webinar: https://youtu.be/r3CHB42OJ-o
mm-lab is going to present a project about a telematics solution for a waste management and collection system. The solution is based on mm-lab's Advanced Telematics Platform (ATP), which is implemented on top of the Prosyst OSGi framework.
The system offers components for the office segment such as a component based web portal and a geographical information system for the planner, a special purpose on-board unit for the waste collection vehicles (about 50) and smart phones (about 20) for the fleet cars and of course a server segment with an interface to the CRM and ERP infrastructure of the client. The system has been successfully upgraded many times since it was put in operation end of 2010. The OSGi framework helps to maintain the several applications and configurations of the different gateway types as the function of the vehicles is multiverse. The on-board units have been upgraded during day-to-day operation which is a unique feature for such a management system.
Smart and Highly Scalable Lifecycle Management for Embedded Devices - Thomas ...mfrancis
OSGi Community Event 2013 (http://www.osgi.org/CommunityEvent2013/Schedule)
ABSTRACT
M2M is a highly dynamic market and is turning ever more challenging and complex as we progress toward fulfilling the vision of the Internet of Things. There are several big challenges to overcome. While device interoperability between devices and with the cloud has already been tackled, one of the biggest challenges is the managing of the devices and its resources in the cloud as well as ensuring scalability across a wide range of intelligent, heterogeneous devices. The strongly adopted M2M-gateways based on Java/ OSGi pose another dimension to manageability, as you now need to do complete lifecycle management of the applications including the efficient and secure deployment of software components and also manage their use of resources on the embedded devices.
We will present an integrated End-2-End Java/ OSGI solution addressing this, consisting of an embedded Java/ OSGI solution for the client-side and a JavaEE-based backend system. We will also show the results of a performance benchmarking of the ProSyst backend device management system (mPRM) deployed on Oracle Exalogic Elastic Cloud system with Oracle Exadata Database, which demonstrates an integrated backend M2M solution capable to provide real-time management and monitoring of millions of simultaneously connected devices in a very efficient and secure manner. Last not least, we will talk about concrete customer deployments and demonstrate the complete solution.
SPEAKER BIOS
Thomas, CEO of ProSyst, joined them in November 2000. Before, he gained over 17 years of experience in international banking, thereof 4 years as an Executive Board member of Chase Manhattan Bank AG, as head of the banks corporate business, and, since mid 1998, as a Managing Director of Capital Markets at Merrill Lynch Germany. Throughout his career, his main focus was on the successful introduction of innovative products and services. Thomas Hott attained a German Diploma in Economics.
Powering Dynamic M2M Event Processing with OSGi - W Bowersmfrancis
As M2M gateways and aggregator devices continue to expand the ever-widening array of sensors and sensor protocols they manage, the number of data events being generated is growing exponentially. Some events need to be acted upon locally; others need to be sent to the cloud for global analysis. Some events require immediate action; other events can wait for later processing. More importantly, the M2M ecosystem needs the ability to dynamically change the local analytics and business rules, depending on the global analytics in the cloud. Using a Raspberry Pi and a temperature monitor, this presentation will demonstrate how OSGi powers dynamic M2M event processing.
Bio:
Walt is currently the Chief Architect, Software Solutions with Hitachi Communications Technologies America. For the past five years Walt has focused on building an OSGi Ecosystem to deliver advanced services and applications to home networks and M2M devices. He has been involved with Telecommunications and Java since 1996 and has extensive experience in Java and OSGi development both as a developer and as a development manager. Walt has a BS in Mathematics and Computer Science from the University of Georgia and over 25 years of experience in software engineering.
Manufacturing IoT - OPC UA Information RevolutionBill Lydon
Internet of Things Manufacturing Business Value
Presentation by Bill Lydon, Chairman - PLCopen North America at the OPC Foundation Information Revolution 2014 Conference held at Microsoft's Redmond Campus. Bill Lydon is an experienced industrial, process control, and building automation professional with technology and business experience including product design, corporate experience, co-founder & president of a start-up company. Bill is an industry consultant, editor of Automation.com and editor International Society of Automation InTech magazine.
For more details contact Bill Lydon
bill@automationfocus.com
414-704-5004
* LinkedIn: www.linkedin.com/in/billlydon
* Twitter: https://twitter.com/wlydon
Engineer Sensors For Digital Transformation Webinar PPTSadatulla Zishan
Do you want to know the current Industrial sensor demands? Are you facing challenges in identifying the right #Industrial protocol? Want to know how to interface the #sensors with different industrial protocols?
Don't worry, we have answered these questions in a focused webinar on #sensorengineering titled “Engineer Sensors for Digital Transformation” on 9th June 2021 2021 at 12 PM EST (USA, Canada Time).
Our expert panelist Mr. Sarang P, Embedded Design Expert joined with Mr. Namdev Nayak, Embedded Design Specialist guided the attendees on the industrial sensors and trending communication protocols in field devices.
In the 60 minutes of the #webinar, they covered:
1. Overview of the industrial sensors and #communicationprotocols
2. How to choose the right communication protocol & sensor when designing
3. Architecture and implementation of #industrialsensor & its various components
4. How is AI implemented in sensor modules
You can view the webinar recording by clicking on the link https://youtu.be/zpknpt4_uhQ
Please feel free to share these links with your colleagues who may be interested.
If you have any queries or require more information regarding the topic or wish to know more about Utthunga you can mail us at contact@utthunga.com or visit our website https://utthunga.com/
We live in a world of accelerating change. As more and more
of the physical world is digitized and moves online, information
now spreads to the global masses in a matter of seconds
rather than days. People and devices communicate
with increasing ease and efficiency, and the resulting deluge
of data is filtered to provide each user with the relevant information they need.
OPC UA Security: Native and Add-on Solutionsteam-WIBU
The Industrial Internet of Things has set the stage for the convergence of Operations Technology (OT) and Information Technology (IT), that is, the plant floor and the higher-level IT infrastructure. One of the many aspects of this transitional journey is represented by M2M communications.
OPC UA is a multi-platform, plug & play Information Exchange Standard for industrial smart automation and cloud networking. It standardizes communications within machines, between machines, and from machines to smart systems, securely networked with IoT architectures.
As a member of the OPC Foundation, Wibu-Systems has been an early adopter of the OPC UA standard in Industrie 4.0 projects like IUNO, the German national reference project for IT security in Industrie 4.0, S4SmartPro, the key finder prototype production line of SmartFactoryKL, and OpSit, the optimal use of smart items technologies in healthcare.
As recently pointed out in the Industrial Internet Security Framework as well, it is endpoints, i.e. the device or cloud-based components that have interfaces for network communication, that are particularly vulnerable in a world of cyber-physical systems connected to open networks. The Unified Automation ANSI C based and High Performance OPC UA SDKs, powered by CodeMeter Embedded, fully support the OPC UA defined Security Profiles and configurations and provide even stronger security for modern M2M communications. Secret information, like RSA private keys, certificates, and trust lists, is stored in a hardware secure element and protected from theft and tampering attacks. In a time when intellectual property is shifting in the value chain from hardware to software, manufacturers now also have new opportunities to capitalize on their software and offer feature-based, time-based, version-based, or pay-per-use models to scale up their offerings, expand their market share, and produce recurrent revenues.
In this presentation, we are going to navigate you through a journey of exploration that will touch upon:
* The elements of innovation in smart manufacturing
* The connection requirements for M2M in the IIoT age
* The building blocks of the OPC Unified Architecture
* Use cases that are accelerating the rise of Smart Factories
* The integration of CodeMeter in the OPC UA standard
* The OPC UA security extension for endpoints
Working with Windows, Linux, macOS, or Android? With minimal embedded controllers up to massive cloud infrastructures? OPC UA and CodeMeter are equally suited, scalable, and secure, and most of all integrated in a streamlined fashion to provide the ultimate technology in access control, authentication, and encryption.
Watch the webinar: https://youtu.be/r3CHB42OJ-o
mm-lab is going to present a project about a telematics solution for a waste management and collection system. The solution is based on mm-lab's Advanced Telematics Platform (ATP), which is implemented on top of the Prosyst OSGi framework.
The system offers components for the office segment such as a component based web portal and a geographical information system for the planner, a special purpose on-board unit for the waste collection vehicles (about 50) and smart phones (about 20) for the fleet cars and of course a server segment with an interface to the CRM and ERP infrastructure of the client. The system has been successfully upgraded many times since it was put in operation end of 2010. The OSGi framework helps to maintain the several applications and configurations of the different gateway types as the function of the vehicles is multiverse. The on-board units have been upgraded during day-to-day operation which is a unique feature for such a management system.
Smart and Highly Scalable Lifecycle Management for Embedded Devices - Thomas ...mfrancis
OSGi Community Event 2013 (http://www.osgi.org/CommunityEvent2013/Schedule)
ABSTRACT
M2M is a highly dynamic market and is turning ever more challenging and complex as we progress toward fulfilling the vision of the Internet of Things. There are several big challenges to overcome. While device interoperability between devices and with the cloud has already been tackled, one of the biggest challenges is the managing of the devices and its resources in the cloud as well as ensuring scalability across a wide range of intelligent, heterogeneous devices. The strongly adopted M2M-gateways based on Java/ OSGi pose another dimension to manageability, as you now need to do complete lifecycle management of the applications including the efficient and secure deployment of software components and also manage their use of resources on the embedded devices.
We will present an integrated End-2-End Java/ OSGI solution addressing this, consisting of an embedded Java/ OSGI solution for the client-side and a JavaEE-based backend system. We will also show the results of a performance benchmarking of the ProSyst backend device management system (mPRM) deployed on Oracle Exalogic Elastic Cloud system with Oracle Exadata Database, which demonstrates an integrated backend M2M solution capable to provide real-time management and monitoring of millions of simultaneously connected devices in a very efficient and secure manner. Last not least, we will talk about concrete customer deployments and demonstrate the complete solution.
SPEAKER BIOS
Thomas, CEO of ProSyst, joined them in November 2000. Before, he gained over 17 years of experience in international banking, thereof 4 years as an Executive Board member of Chase Manhattan Bank AG, as head of the banks corporate business, and, since mid 1998, as a Managing Director of Capital Markets at Merrill Lynch Germany. Throughout his career, his main focus was on the successful introduction of innovative products and services. Thomas Hott attained a German Diploma in Economics.
Powering Dynamic M2M Event Processing with OSGi - W Bowersmfrancis
As M2M gateways and aggregator devices continue to expand the ever-widening array of sensors and sensor protocols they manage, the number of data events being generated is growing exponentially. Some events need to be acted upon locally; others need to be sent to the cloud for global analysis. Some events require immediate action; other events can wait for later processing. More importantly, the M2M ecosystem needs the ability to dynamically change the local analytics and business rules, depending on the global analytics in the cloud. Using a Raspberry Pi and a temperature monitor, this presentation will demonstrate how OSGi powers dynamic M2M event processing.
Bio:
Walt is currently the Chief Architect, Software Solutions with Hitachi Communications Technologies America. For the past five years Walt has focused on building an OSGi Ecosystem to deliver advanced services and applications to home networks and M2M devices. He has been involved with Telecommunications and Java since 1996 and has extensive experience in Java and OSGi development both as a developer and as a development manager. Walt has a BS in Mathematics and Computer Science from the University of Georgia and over 25 years of experience in software engineering.
Manufacturing IoT - OPC UA Information RevolutionBill Lydon
Internet of Things Manufacturing Business Value
Presentation by Bill Lydon, Chairman - PLCopen North America at the OPC Foundation Information Revolution 2014 Conference held at Microsoft's Redmond Campus. Bill Lydon is an experienced industrial, process control, and building automation professional with technology and business experience including product design, corporate experience, co-founder & president of a start-up company. Bill is an industry consultant, editor of Automation.com and editor International Society of Automation InTech magazine.
For more details contact Bill Lydon
bill@automationfocus.com
414-704-5004
* LinkedIn: www.linkedin.com/in/billlydon
* Twitter: https://twitter.com/wlydon
Particularly relevant to people responsible for the design of PROFINET networks, highlighting the common errors and assumptions made that could make on-going support of the network rather difficult.
Industry 4.0: Building the Unified Namespace with Confluent, HiveMQ and Spark...confluent
Our talk will explore the transformative impact of integrating Confluent, HiveMQ, and SparkPlug in Industry 4.0, emphasizing the creation of a Unified Namespace.
In addition to the creation of a Unified Namespace, our webinar will also delve into Stream Governance and Scaling, highlighting how these aspects are crucial for managing complex data flows and ensuring robust, scalable IIoT-Platforms.
You will learn how to ensure data accuracy and reliability, expand your data processing capabilities, and optimize your data management processes.
Don't miss out on this opportunity to learn from industry experts and take your business to the next level.
M2M in Transportation, Mining and AgricultureEurotech
Eurotech's M2M Offering for Transportation and Mobility
Rugged Devices and Solutions for Vehicles
Vertical Market Applications for Transportation, Agriculture and Mining.
Session 1908 connecting devices to the IBM IoT CloudPeterNiblett
IBM MessageSight and the IBM Internet of Things cloud enable connectivity across a wide variety of devices - from existing devices in silos and systems through the wide range of new devices that are appearing on a daily basis. This session covers patterns of connectivity, how to make it happen, including sending events like measurements and receiving of commands. The session goes into detail on how to use the industry standard MQ Telemetry Transport protocol to achieve this and encompasses best practices for topics and message format.
Founded in 1983, Advantech is a leader in providing trusted innovative embedded & automation products and solutions. Advantech offers comprehensive system integration, hardware, software, customer-centric design services, and global logistics support; all backed by industry-leading front and back office e-business solutions. We cooperate closely with our partners to help provide complete solutions for a wide array of applications across a diverse range of industries. Advantech has always been an innovator in the development and manufacturing of high-quality, high-performance computing platforms, and our mission is to empower these innovations by offering trustworthy ePlatform products and services. With Advantech, there is no limit to the applications and innovations our products make possible.
World-class Recognition
Advantech is an authorized alliance partner of both Intel® and Microsoft®. Our customers will find the technologies we use inside our products to be widely compatible with other products in the global marketplace. In 2008, Interbrand, the world renowned brand consulting firm, once again recognized Advantech as one of the Top 10 Taiwanese Global Brands. Advantech appreciates this recognition of our efforts to build a trusted, global brand; it also symbolizes a promise we gave to our business partners, which was to do our best to keep building a trustworthy brand that is recognized everywhere in the world.
The value of the platform play in real world use cases Software AG cwin18 tou...Capgemini
Software AG Cumulocity IoT and Capgemini key enablers to to go beyond the current paradigms and transform the business by seamlessly combining people, things and differentiation.
RCA OCORA: Safe Computing Platform using open standardsAdaCore
The railway sector is facing a major transition as it moves towards more fully automated systems on both the train and infrastructure side. This in turn, requires the development of appropriate, future-proof connectivity and IT platforms.
The Reference Control Command and Signalling Architecture (RCA) and Open Control Command and Signalling Onboard Reference Architecture (OCORA) have developed a functional architecture for future trackside and onboard functions. The RCA OCORA open Control Command Signalling (CCS) on-board reference architecture introduces a standardized separation of safety-relevant and non-safety-relevant railway applications and the underlying IT platforms. This allows rail operators to decouple the very distinct life cycles of the domains and aggregate multiple railway applications on common IT platforms.
Based on a Safe Computing Platform (SCP), the architecture accommodates a Platform Independent Application Programming Interface (PI API) between safety-relevant railway applications and IT platforms. This approach supports the portability of railway applications among IT platform realisations from different vendors.
Two of its authors will discuss the RCA OCORA architecture with emphasis on its safe computing framework. The talk will review the required operating system standards and the discuss the newly-released DDS Reference Implementation for Safe Computing Platform Messaging. While designed for rail, this architecture will have elements of interest for other industries.
Simple tools that could use in Enterprise Programming.
This slide specially prepared for college students.
There are few tools: -
PHPExcel - to read excel files on web application
Smarty - template engine for PHP
IBExpert - to manage Firebird database
WBS - Work Breakdown Structure
Cacoo - Diagram maker
REDMINE - project management tool
HYPER-v - Microsoft Virtualization
Building a reliable and scalable IoT platform with MongoDB and HiveMQDominik Obermaier
Today’s Internet of Things (IoT) is enabling companies to blend together the physical and digital worlds, creating new business models and generating insights that increase productivity at once unimaginable levels. However, managing the ever growing volume of heterogeneous IoT data from disparate devices, systems and applications both on premise and in the cloud can be a challenging endeavour without a scalable and reliable IoT platform.
In this webinar, we will explore why and how companies are leveraging HiveMQ and MongoDB to build exactly that: a scalable and reliable IoT platform. Based upon a sample fleet management scenario, we will explain how telematics data can be routed via MQTT and efficiently stored to provide analytics and insights into the data.
Key Learnings
- Common challenges and pitfalls of IoT projects
- Required components for effectively handling data with an IoT platform
- HiveMQ for MQTT to enable bi-directional device communication over unstable networks
- MongoDB as the flexible and scalable modern data platform combining data from different sources and powering your applications
- Why MongoDB and HiveMQ is such a great combination
Democratizing Fuzzing at Scale by Abhishek Aryaabh.arya
Presented at NUS: Fuzzing and Software Security Summer School 2024
This keynote talks about the democratization of fuzzing at scale, highlighting the collaboration between open source communities, academia, and industry to advance the field of fuzzing. It delves into the history of fuzzing, the development of scalable fuzzing platforms, and the empowerment of community-driven research. The talk will further discuss recent advancements leveraging AI/ML and offer insights into the future evolution of the fuzzing landscape.
About
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
• Remote control: Parallel or serial interface.
• Compatible with MAFI CCR system.
• Compatible with IDM8000 CCR.
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
• Easy in configuration using DIP switches.
Technical Specifications
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
Key Features
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
• Remote control: Parallel or serial interface
• Compatible with MAFI CCR system
• Copatiable with IDM8000 CCR
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
Application
• Remote control: Parallel or serial interface.
• Compatible with MAFI CCR system.
• Compatible with IDM8000 CCR.
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
• Easy in configuration using DIP switches.
Water scarcity is the lack of fresh water resources to meet the standard water demand. There are two type of water scarcity. One is physical. The other is economic water scarcity.
COLLEGE BUS MANAGEMENT SYSTEM PROJECT REPORT.pdfKamal Acharya
The College Bus Management system is completely developed by Visual Basic .NET Version. The application is connect with most secured database language MS SQL Server. The application is develop by using best combination of front-end and back-end languages. The application is totally design like flat user interface. This flat user interface is more attractive user interface in 2017. The application is gives more important to the system functionality. The application is to manage the student’s details, driver’s details, bus details, bus route details, bus fees details and more. The application has only one unit for admin. The admin can manage the entire application. The admin can login into the application by using username and password of the admin. The application is develop for big and small colleges. It is more user friendly for non-computer person. Even they can easily learn how to manage the application within hours. The application is more secure by the admin. The system will give an effective output for the VB.Net and SQL Server given as input to the system. The compiled java program given as input to the system, after scanning the program will generate different reports. The application generates the report for users. The admin can view and download the report of the data. The application deliver the excel format reports. Because, excel formatted reports is very easy to understand the income and expense of the college bus. This application is mainly develop for windows operating system users. In 2017, 73% of people enterprises are using windows operating system. So the application will easily install for all the windows operating system users. The application-developed size is very low. The application consumes very low space in disk. Therefore, the user can allocate very minimum local disk space for this application.
Vaccine management system project report documentation..pdfKamal Acharya
The Division of Vaccine and Immunization is facing increasing difficulty monitoring vaccines and other commodities distribution once they have been distributed from the national stores. With the introduction of new vaccines, more challenges have been anticipated with this additions posing serious threat to the already over strained vaccine supply chain system in Kenya.
Immunizing Image Classifiers Against Localized Adversary Attacksgerogepatton
This paper addresses the vulnerability of deep learning models, particularly convolutional neural networks
(CNN)s, to adversarial attacks and presents a proactive training technique designed to counter them. We
introduce a novel volumization algorithm, which transforms 2D images into 3D volumetric representations.
When combined with 3D convolution and deep curriculum learning optimization (CLO), itsignificantly improves
the immunity of models against localized universal attacks by up to 40%. We evaluate our proposed approach
using contemporary CNN architectures and the modified Canadian Institute for Advanced Research (CIFAR-10
and CIFAR-100) and ImageNet Large Scale Visual Recognition Challenge (ILSVRC12) datasets, showcasing
accuracy improvements over previous techniques. The results indicate that the combination of the volumetric
input and curriculum learning holds significant promise for mitigating adversarial attacks without necessitating
adversary training.
Good Evening Everyone, We welcome you to the webinar and we are glad that everyone could make it.
Myself Anand from Utthunga Technologies, I’m your moderator for the day.
Today we all will be a part of webinar on OPC UA Inside Out
To maintain the flow of the webinar Q & A will be addressed in the last
Giveaway – Presentation , link of recorded video
Moving on to the next slide
Change the ED icon to uConnect icon (depiction image) –
ED2 should depict similar icon…
Paint Shop should be changed with (Robot image with spray…)
Remove the blue empty boxes
ERP System => Make it look good…(aesthetic aspect is not taken care…)
This needs to be improvised
Task
Data acquisition from various PLCs
Without OPC in plant integration
Have to upgrade the PLC or use industrial protocol converter to bring all the PLCs into one standard protocol like Modbus RS485/TCP
Task
Data acquisition from Robots, Taiwanese injection molding machines
Without OPC in plant integration
Surely general edge devices cannot have the native protocol, option is to develop a driver to understand the protocol which does not make sense
With OPC in plant integration
Forget about injection molding, Robots will surely have OPC option to publish the data
At Edge Layer =>
At L1 Layer =>
For Injection Moulding =>
https://nbplastics.com/blog/how-the-iot-is-used-in-plastic-injection-molding/
http://www2.advantech.eu/EDM/eu/201704_Integrated_Automation_Systems/Case_Studies/5_Monitoring_Injection_Molding_Product_Quality.pdf
Robots
Axis – (Joints..) => 3 fundamental inform
For every joint -> Position
When moving => Moving Speed for each joint….
When 4 different joints move,
Diagnostics Information, Error Information…
Fault Recovery Mode for Robots ()
Speed at which is extremely fast….(TSN …, Beckhoff….??)
Robots describing themselves The OPC UA Companion Specification for Robotics (in short OPC UA Robotics) provides a standardized information model which is capable of presenting all robot related data regardless of manufacturer or location in a uniform manner. Part 1 released today as draft version permits asset management, condition monitoring, preventive maintenance and vertical integration – at any time, anywhere in the world and independent of the robot brand or type. It provides the ideal basis for data analytics and for boosting OEE (Overall Equipment Effectiveness).
The OPC Robotics specification describes an information model, which aims to cover all current and future robotic systems such as:
– Industrial robots
– Mobile robots
– Several control units
– Peripheral devices, which do not have their own OPC UA server
Part 1 provides information for asset management and condition monitoring. In future parts, the information model will be extended to cover more use cases.
The following functionalities are covered:
– Provision of asset configuration and runtime data of a running motion device system and its components e.g. manipulators, axes, motors, controllers and software
Following functions are not included and might be covered in future parts:
– A messaging mechanism covered by events and alarms to provide conditions
MTConnect => Cant write the data back to robots….. You can only read the data…
system in a smart manufacturing tells simple value change in a fully digital network and created new business models. To have an uniform structure and common communication, German Platform industrie 4.0 such as ZVEI, VDMA, and BITKOM proposes the Reference Architecture model (RAMI 4.0) in a 3 dimension model.
Axis 1 defines on Hiearchy levels products, Machines, Field Devices, control devices, station and so on.
Axis 2 defines on the Life Cycle & Value streams, both “types” and “instances” can be represented in the OPC UA Information Model.
Axis 3 defines the Layers such as asserts, integration, communication where communication layer comes in to the picture to provide access to the information. The OPC UA plays a major role in this communication layer to have an standard information model and exchanging the information a secure manner.
system in a smart manufacturing tells simple value change in a fully digital network and created new business models. To have an uniform structure and common communication, German Platform industrie 4.0 such as ZVEI, VDMA, and BITKOM proposes the Reference Architecture model (RAMI 4.0) in a 3 dimension model.
Axis 1 defines on Hiearchy levels products, Machines, Field Devices, control devices, station and so on.
Axis 2 defines on the Life Cycle & Value streams, both “types” and “instances” can be represented in the OPC UA Information Model.
Axis 3 defines the Layers such as asserts, integration, communication where communication layer comes in to the picture to provide access to the information. The OPC UA plays a major role in this communication layer to have an standard information model and exchanging the information a secure manner.
Doing a best Job in the most optimized manner
system in a smart manufacturing tells simple value change in a fully digital network and created new business models. To have an uniform structure and common communication, German Platform industrie 4.0 such as ZVEI, VDMA, and BITKOM proposes the Reference Architecture model (RAMI 4.0) in a 3 dimension model.
Axis 1 defines on Hiearchy levels products, Machines, Field Devices, control devices, station and so on.
Axis 2 defines on the Life Cycle & Value streams, both “types” and “instances” can be represented in the OPC UA Information Model.
Axis 3 defines the Layers such as asserts, integration, communication where communication layer comes in to the picture to provide access to the information. The OPC UA plays a major role in this communication layer to have an standard information model and exchanging the information a secure manner.
system in a smart manufacturing tells simple value change in a fully digital network and created new business models. To have an uniform structure and common communication, German Platform industrie 4.0 such as ZVEI, VDMA, and BITKOM proposes the Reference Architecture model (RAMI 4.0) in a 3 dimension model.
Axis 1 defines on Hiearchy levels products, Machines, Field Devices, control devices, station and so on.
Axis 2 defines on the Life Cycle & Value streams, both “types” and “instances” can be represented in the OPC UA Information Model.
Axis 3 defines the Layers such as asserts, integration, communication where communication layer comes in to the picture to provide access to the information. The OPC UA plays a major role in this communication layer to have an standard information model and exchanging the information a secure manner.
system in a smart manufacturing tells simple value change in a fully digital network and created new business models. To have an uniform structure and common communication, German Platform industrie 4.0 such as ZVEI, VDMA, and BITKOM proposes the Reference Architecture model (RAMI 4.0) in a 3 dimension model.
Axis 1 defines on Hiearchy levels products, Machines, Field Devices, control devices, station and so on.
Axis 2 defines on the Life Cycle & Value streams, both “types” and “instances” can be represented in the OPC UA Information Model.
Axis 3 defines the Layers such as asserts, integration, communication where communication layer comes in to the picture to provide access to the information. The OPC UA plays a major role in this communication layer to have an standard information model and exchanging the information a secure manner.
Utthunga is active contributor to OPC Foundation and some of the related companion standards. This has helped us to serve our customer much better way. We work with device manufacturer, Chip Manufacturer and system supliers in emabling their system OPC compliant. We have pool of OPC and Domain Expert and scalable pool of OPC engineers to develop these applications like embedded device development etc. We also work with some of these consortiums like ODVA, FieldComm group, FDT Group on OPC related activities.
With our deep root in this subject, we will be your trusted OPC Technology implementation partner….
Kindly contact us for any support needed in OPC UA….
Now, lets move to the Q&A sessions… over to you Zishan.
