This document discusses various digital technologies used in industrial instrumentation, including smart instruments, fieldbus standards, Ethernet, and industrial wireless networks. It provides information on different fieldbus protocols such as HART, Profibus, Foundation Fieldbus, and WirelessHART. The document also discusses how wireless sensor networks can help reduce installation costs compared to wired sensors. Finally, it touches on issues around integrating wireless sensor networks with existing industrial network architectures.
Network Management is about monitoring and managing multi-protocol networks using the SNMP Protocol. The workshop reviews the SNMP Protocol structure, Network management applications, and query agents. There will be a detailed discussion on identifying objects, MIBs and SNMP devices.
WORKSHOP OBJECTIVES:
You will understand the structure and operation of SNMP
You will use SNMP to identify faulty devices
You will use RMON to analyse remote network information
You will interpret and explain MIB I and MIB II (Public/Private/Proprietary)
You will track the important variables on your network
You will install and configure a typical Network Management Package
MORE INFORMATION: http://www.idc-online.com/content/snmp-network-management-essentials-27
Cybersecurity Network Security Training (Featured) - Tonex TrainingBryan Len
Length: 2 Days
Network security training causes you look at the security related issues in networks and furnishes you with fundamental arrangement to verify the networks from assaults and adventures.
Cybersecurity Network security training by TONEX presents the significance of security in networks and causes you to comprehend the primary segments of a verified network.
Added Value :
Public key infrastructure
Wireless local area network
WLAN security concepts
IPsec
Internet key exchange version 2 (IKEv2)
Security issues related to IPv4 or IPv6
Multi-protocol label switching security and network endpoint assessment control
On the off chance that you are an IT proficient who have some expertise in network security, you will profit the introductions, models, contextual investigations, talks, and individual exercises upon the consummation of the prologue to verify programming building preparing and will set yourself up for your profession.
Learn About:
The principle types of network assaults and security issues related to various networks
The IEEE measures for network security, fundamental pieces of networks and their security issues, and WLAN engineering
Wired equivalent privacy (WEP), virtual private network (VPN), static IPs, and passage substitution in network security training
The idea of TCP/IP, security issues identified with web convention, principles for IP security, Authentication header convention (AH), and web key trade
The distinction somewhere in the range of IPv4 and IPv6, diverse security issues identified with IPv4, advances for IPv6, and double stack approach
The multi-convention name exchanging (MPLS), MPLS security, mark exchanging switches and more.
Training Outline:
Network Security Basics
Brief Overview of Public Key Infrastructure (PKI)
Wireless Local Area Network (WLAN)
WLAN Security
Internet Protocol Security (IPsec) and Internet Key Exchange Version 2 (IKEv2)
Transition Security Issues of IPv4 to IPv6
Multi-Protocol Label Switching (MPLS) Security
Network Endpoint Assessment (Network Access Control)
Next Generation Networks
Hands-On, Workshops and Group Activities
Request more information regarding tonex cybersecurity, network security training. Visit tonex.com for course and workshop detail.
Cybersecurity Network Security Training
https://www.tonex.com/training-courses/network-security-training/
What BACnet/SC can do to improve BAS cybersecurity, and what it won’t doCimetrics Inc
How should we protect building automation systems from cybersecurity threats? Jim Butler is a BACnet IT Working Group convener and the first BACnet Testing Laboratories Manager, CTO of Cimetrics.
Wireless Security Best Practices for Remote Monitoring Applicationscmstiernberg
Wireless network security continues to be an area of intense research and development, particularly in applications where wireless sensors are extending the reach of traditional monitoring and control systems. While the IT sector has embraced the IEEE 802.11i standard for corporate networks, engineers have many more options available to them for their industrial network designs. This presentation will provide an overview of IEEE 802.11i, IEEE 802.15.4, ZigBee, and other security protocols as they relate to measurement and automation applications. In addition, network design and commissioning best practices will provide attendees with a set of recommendations for guarding against the most common security attacks.
Network Management is about monitoring and managing multi-protocol networks using the SNMP Protocol. The workshop reviews the SNMP Protocol structure, Network management applications, and query agents. There will be a detailed discussion on identifying objects, MIBs and SNMP devices.
WORKSHOP OBJECTIVES:
You will understand the structure and operation of SNMP
You will use SNMP to identify faulty devices
You will use RMON to analyse remote network information
You will interpret and explain MIB I and MIB II (Public/Private/Proprietary)
You will track the important variables on your network
You will install and configure a typical Network Management Package
MORE INFORMATION: http://www.idc-online.com/content/snmp-network-management-essentials-27
Cybersecurity Network Security Training (Featured) - Tonex TrainingBryan Len
Length: 2 Days
Network security training causes you look at the security related issues in networks and furnishes you with fundamental arrangement to verify the networks from assaults and adventures.
Cybersecurity Network security training by TONEX presents the significance of security in networks and causes you to comprehend the primary segments of a verified network.
Added Value :
Public key infrastructure
Wireless local area network
WLAN security concepts
IPsec
Internet key exchange version 2 (IKEv2)
Security issues related to IPv4 or IPv6
Multi-protocol label switching security and network endpoint assessment control
On the off chance that you are an IT proficient who have some expertise in network security, you will profit the introductions, models, contextual investigations, talks, and individual exercises upon the consummation of the prologue to verify programming building preparing and will set yourself up for your profession.
Learn About:
The principle types of network assaults and security issues related to various networks
The IEEE measures for network security, fundamental pieces of networks and their security issues, and WLAN engineering
Wired equivalent privacy (WEP), virtual private network (VPN), static IPs, and passage substitution in network security training
The idea of TCP/IP, security issues identified with web convention, principles for IP security, Authentication header convention (AH), and web key trade
The distinction somewhere in the range of IPv4 and IPv6, diverse security issues identified with IPv4, advances for IPv6, and double stack approach
The multi-convention name exchanging (MPLS), MPLS security, mark exchanging switches and more.
Training Outline:
Network Security Basics
Brief Overview of Public Key Infrastructure (PKI)
Wireless Local Area Network (WLAN)
WLAN Security
Internet Protocol Security (IPsec) and Internet Key Exchange Version 2 (IKEv2)
Transition Security Issues of IPv4 to IPv6
Multi-Protocol Label Switching (MPLS) Security
Network Endpoint Assessment (Network Access Control)
Next Generation Networks
Hands-On, Workshops and Group Activities
Request more information regarding tonex cybersecurity, network security training. Visit tonex.com for course and workshop detail.
Cybersecurity Network Security Training
https://www.tonex.com/training-courses/network-security-training/
What BACnet/SC can do to improve BAS cybersecurity, and what it won’t doCimetrics Inc
How should we protect building automation systems from cybersecurity threats? Jim Butler is a BACnet IT Working Group convener and the first BACnet Testing Laboratories Manager, CTO of Cimetrics.
Wireless Security Best Practices for Remote Monitoring Applicationscmstiernberg
Wireless network security continues to be an area of intense research and development, particularly in applications where wireless sensors are extending the reach of traditional monitoring and control systems. While the IT sector has embraced the IEEE 802.11i standard for corporate networks, engineers have many more options available to them for their industrial network designs. This presentation will provide an overview of IEEE 802.11i, IEEE 802.15.4, ZigBee, and other security protocols as they relate to measurement and automation applications. In addition, network design and commissioning best practices will provide attendees with a set of recommendations for guarding against the most common security attacks.
Presented @ Frederick Linux Users Group (KeyLUG)
May 7, 2016
A presentation on protecting Small Office/Home Office (SOHO) networks that I made at the Frederick Linux Users Group (KeyLUG). I work virtually from my home, and this presentation goes through some of my experiences setting up my home network to be better and more secure. I ditched my consumer-grade NAT router and have installed a firewall, commercial-grade wireless access points, and an intrusion detection system (IDS). I'm not finished yet, but this presentation will give you an idea of some of the things that I've done, where I'm thinking about going, and as some things to consider as you setup your own network.
A brief history of metering and BACnet. By Christopher Searles from Eaton Corporation, Power Management Account Manager, NE Region. Christopher has been working 21 Years at Eaton.
Understanding IT Network Security for Wireless and Wired Measurement Applicat...cmstiernberg
The line between the once mutually exclusive IT and engineering departments is beginning to blur as PC-based technologies familiar to the IT sector find their way into measurement applications. Learn how to create synergy between these two groups by understanding how enterprise security protocols apply to wireless/wired measurement systems.
Segmenting your Network for Security - The Good, the Bad and the UglyAlgoSec
Hear expert penetration tester Mark Wolfgang and AlgoSec explain:
* Common network segmentation mistakes organizations make every day
* How to strategically segment your network for security
* How to enforce network segmentation using automated security policy management
Presented @ Frederick Linux Users Group (KeyLUG)
May 7, 2016
A presentation on protecting Small Office/Home Office (SOHO) networks that I made at the Frederick Linux Users Group (KeyLUG). I work virtually from my home, and this presentation goes through some of my experiences setting up my home network to be better and more secure. I ditched my consumer-grade NAT router and have installed a firewall, commercial-grade wireless access points, and an intrusion detection system (IDS). I'm not finished yet, but this presentation will give you an idea of some of the things that I've done, where I'm thinking about going, and as some things to consider as you setup your own network.
A brief history of metering and BACnet. By Christopher Searles from Eaton Corporation, Power Management Account Manager, NE Region. Christopher has been working 21 Years at Eaton.
Understanding IT Network Security for Wireless and Wired Measurement Applicat...cmstiernberg
The line between the once mutually exclusive IT and engineering departments is beginning to blur as PC-based technologies familiar to the IT sector find their way into measurement applications. Learn how to create synergy between these two groups by understanding how enterprise security protocols apply to wireless/wired measurement systems.
Segmenting your Network for Security - The Good, the Bad and the UglyAlgoSec
Hear expert penetration tester Mark Wolfgang and AlgoSec explain:
* Common network segmentation mistakes organizations make every day
* How to strategically segment your network for security
* How to enforce network segmentation using automated security policy management
Practical Use & Understanding of Foundation FieldBus for Engineers & TechniciansLiving Online
Foundation Fieldbus (FF) is one of the leading fieldbuses in Process Automation. Its sophisticated architecture is tailor-made for today's automation systems. Its unique set of features allows for the implementation of true distributed control. The Foundation Fieldbus includes an H1 protocol based on IEC 61158-2 physical layer specification as well as an HSE standard for communication over Ethernet/IP. These features and the possibility for distributed control make the Foundation Fieldbus unique for process control application.
The main aim of this workshop is to give you a clear understanding of Foundation Fieldbus and to enable you to specify and design systems using this technology. There has been a surge of interest in Foundation Fieldbus due to the tremendous benefits it provides. This workshop aims to break down the terminology and jargon barriers and to explain Foundation Fieldbus in a simple and understandable way; thus enabling you to apply the technology effectively.
MORE INFORMATION: http://www.idc-online.com/content/practical-use-and-understanding-foundation-fieldbus-engineers-and-technicians-24
An in-depth look at all the products and services that ICP DAS USA will be offering in the year 2020. The types of products we have on offer include: remote I/O data acquisition modules in a wide variety of protocols and specifications, industrial controllers, PACs, PLCs, ruggedized touchscreen displays and panel PCs, SCADA & HMI software, data loggers and data logging software, power meters, gateways, converters, power supplies, and much more.
Extreme Manufacturing Solutions
Operations Performance Analytics (OPA)
Business alignment - Over time, the proliferation of devices has created unnecessary complexity. Control Center delivers centralized visibility and granular control of network resources. One click can equal a thousand actions when you manage your network. Control Center can even manage beyond Extreme Networks switching, routing, and wireless hardware to deliver standards-based control of other vendors’ network equipment.
Pairing assets with intelligent sensors to gather, analyze, and communicate data is driving enormous new efficiencies in manufacturing and business operations. Just as in the consumer markets, where the first generation of personal fitness monitors and smart home devices leverage data sets to influence and shape events in the physical world, so too are operational efficiencies borne by the Internet of Things (IoT) generating high returns in manufacturing.
According to McKinsey, “business-to-business applications will account for nearly 70 percent of the value … from IoT in the next ten years.” The firm estimates that of the nearly $11 trillion a year in economic value generated globally, ‘nearly $5 trillion [will] be generated almost exclusively in B2B settings, including factories… such as those in manufacturing, agriculture, and even healthcare environments; work sites across mining, oil and gas, and construction; and, finally, offices.’
More informed decision-making and optimized operations across the extended supply chain are only some of the benefits. Wireless sensors, whether measuring hydrogen levels in the soil or temperature variables on the production line, are eliminating blind spots in traditional manufacturing processes and delivering a constant flow of data that optimize workflows. And while manufacturers have leveraged data in discrete applications for Manufacturing Execution Systems (MES) and Enterprise Manufacturing Intelligence (EMI) systems for years, the growth of sensors, real-time dashboards, cloud-applications, and mobile technologies are delivering new degrees of actionable intelligence to the precise location at the precise time it can be optimally leveraged.
Yet this goal of seamlessly moving data across plant and business functions, and applying analytical tools to enable new insights, requires a new degree of visibility into the performance of manufacturing applications, networks, and systems. Traditionally monitoring tools used in factory environments are often isolated, closed, proprietary, and offer only a keyhole view of IT system performance.
InSource 2017 IIoT Roadshow: Collecting and Moving DataInSource Solutions
By Pete Bayes, Advantech
In today’s world, the infrastructure provided by smart city and industrial automation systems enables continuous connectivity. The commonality shared by such systems is their association with the Internet of Things (IoT). With the inclusion of sensors and control devices, entire infrastructures can be integrated with information and communication technologies, resulting in networked and embedded devices that enable intelligent monitoring and management.
Advantech is a global leader in the embedded computing market, learn more by viewing the presentation.
Practical Routers & Switches for Electrical EngineersLiving Online
Routers and switches are primary components of most networks and obviously internetworks. Routers are simultaneously the most complex component of networks and the most important. This workshop goes through the basics of routers, routed and routing protocols and the basic rules to follow in building internetworks. If you are using any form of communication system or are applying modern PLCs/SCADA systems this workshop will give you the essential tools in working with networks. It is not an advanced workshop – but a hands-on one.
MORE INFORMATION: http://www.idc-online.com/content/practical-routers-switches-engineers-technicians-2
A session in the DevNet Zone at Cisco Live, Berlin. Flare allows users with mobile devices to discover and interact with things in an environment. It combines multiple location technologies, such as iBeacon and CMX, with a realtime communications architecture to enable new kinds of user interactions. This session will introduce the Flare REST and Socket.IO API, server, client libraries and sample code, and introduce you to the resources available on DevNet and GitHub. Come visit us in the DevNet zone for a hands-on demonstration.
As we step into the Industrial IoT (Internet of Things) era, network reliability remains the first objective for factory control and automation systems. However, many people are not familiar with the unique requirements of Industrial Networks or their integration with traditional enterprise networks. In this webinar you will learn about the trends for SMART factories, best practices for network integration and some leading technologies available to help you design and build an industrial network that meets your needs today and in the future.
Key Takeaways:
1. Understand the unique needs of industrial networks
2. Understand how they interface with traditional IT/Enterprise networks
3. Learn about some available technologies that address these needs
Practical IEC 61850 for Substation Automation for Engineers and TechniciansLiving Online
COPY THIS LINK INTO YOUR BROWSER TO FIND OUT MORE: bit.ly/11AM1oL
Older (‘legacy’) substation automation protocols and hardware/software architectures provided basic functionality for power system automation, and were designed to accommodate the technical limitations of the technologies available at the time. However, in recent years there have been vast improvements in technology, especially on the networking side. This has opened the door for dramatic improvements in the approach to power system automation in substations.
The latest developments in networking such as high-speed, deterministic, redundant Ethernet, as well as other technologies including TCP/IP, high-speed Wide Area Networks and high-performance embedded processors, are providing capabilities that could hardly be imagined when most legacy substation automation protocols were designed.
IEC61850 is a part of the International Electro-technical Commission (IEC) Technical Committee 57 (TC57) architecture for electric power systems. It is an important new international standard for substation automation, and it will have a significant impact on how electric power systems are designed and built in future. The model-driven approach of IEC61850 is an innovative approach and requires a new way of thinking about substation automation. This will result in significant improvements in the costs and performance of electric power systems.
This workshop provides comprehensive coverage of IEC 61850 and will provide you with the tools and knowledge to tackle your next substation automation project with confidence.
WHO SHOULD ATTEND?
This workshop is designed for personnel with a need to understand the techniques required to use and apply IEC 61850 to substation automation, hydro power plants, wind turbines and distributed energy resources as productively and economically as possible. This includes engineers and technicians involved with:
Consulting
Control and instrumentation
Control systems
Design
Maintenance supervisors
Electrical installations
Process control
Process development
Project management
SCADA and telemetry systems
COPY THIS LINK INTO YOUR BROWSER TO FIND OUT MORE: bit.ly/11AM1oL
Practical IEC 61850 for Substation Automation for Engineers & TechniciansLiving Online
COPY THIS LINK INTO YOUR BROWSER FOR MORE INFORMATION: bit.ly/11AM1oL
Older (‘legacy’) substation automation protocols and hardware/software architectures provided basic functionality for power system automation, and were designed to accommodate the technical limitations of the technologies available at the time. However, in recent years there have been vast improvements in technology, especially on the networking side. This has opened the door for dramatic improvements in the approach to power system automation in substations.
The latest developments in networking such as high-speed, deterministic, redundant Ethernet, as well as other technologies including TCP/IP, high-speed Wide Area Networks and high-performance embedded processors, are providing capabilities that could hardly be imagined when most legacy substation automation protocols were designed.
IEC61850 is a part of the International Electro-technical Commission (IEC) Technical Committee 57 (TC57) architecture for electric power systems. It is an important new international standard for substation automation, and it will have a significant impact on how electric power systems are designed and built in future. The model-driven approach of IEC61850 is an innovative approach and requires a new way of thinking about substation automation. This will result in significant improvements in the costs and performance of electric power systems.
This workshop provides comprehensive coverage of IEC 61850 and will provide you with the tools and knowledge to tackle your next substation automation project with confidence.
WHO SHOULD ATTEND?
This workshop is designed for personnel with a need to understand the techniques required to use and apply IEC 61850 to substation automation, hydro power plants, wind turbines and distributed energy resources as productively and economically as possible. This includes engineers and technicians involved with:
Consulting
Control and instrumentation
Control systems
Design
Maintenance supervisors
Electrical installations
Process control
Process development
Project management
SCADA and telemetry systems
COPY THIS LINK INTO YOUR BROWSER FOR MORE INFORMATION: bit.ly/11AM1oL
Hands on Data Communication, Networking & TCP/IP TroubleshootingLiving Online
COPY THIS LINK INTO YOUR BROWSER FOR MORE INFORMATION: bit.ly/1t9t5VE
Data communication is given high priority in today’s industrial environment. This workshop is designed to be hands-on, providing the participants with essential knowledge and helping them to understand and troubleshoot systems.
This is a comprehensive two-day hands-on workshop that covers practical aspects of data communication such as serial communications, Ethernet networking, TCP/IP, Modbus, wireless communications and security.
This workshop is for enthusiastic engineers and technicians who wish to develop and enhance their practical knowledge in the field of data communications and networking. It will help them to understand the concepts behind data transmission, the various protocols involved, and the topologies that govern data exchange among various systems in industry. It will also equip them with the skills and tools to design and/or maintain these systems on an ongoing basis.
WHO SHOULD ATTEND?
This workshop is designed for personnel with a need to understand the techniques required to use and apply industrial communications technology as productively and economically as possible. This includes engineers and technicians involved with:
Consulting
Control and instrumentation
Control systems
Design
Electrical installations
Instrumentation
Maintenance supervisors
Process control
Process development
Project management
SCADA and telemetry systems
COPY THIS LINK INTO YOUR BROWSER FOR MORE INFORMATION: bit.ly/1t9t5VE
THE WORKSHOP:
This practical workshop covers all the essentials of process control and tools to optimise the operation of your plant and process, including the ability to perform effective loop tuning.
Practical process control is aimed at engineers and technicians who wish to have a clear, practical understanding of the essentials of process control and loop tuning, as well as how to optimise the operation of their particular plant or process. These persons would typically be primarily involved in the design, implementation and upgrading of industrial control systems. Mathematical theory has been kept to a minimum with the emphasis throughout on practical applications and useful information.
Inspection, Testing and Commissioning of Electrical Switchboards, Circuit Bre...Living Online
THE WORKSHOP:
Whether you are designing, specifying, installing, testing or commissioning electrical equipment from small to large commercial and industrial installations, you need to have a thorough understanding of switchboards, switchgear, circuit breakers and associated protective relays.
The overall focus of this workshop is on electrical inspection, testing and commissioning and will commence with a detailed examination of switchgear (and circuit breakers). Circuit breakers are critical components in electrical distribution systems and their operation significantly affects the overall operation of the system. Protection relays are then discussed. These are used in power systems to maximise continuity of supply and are found in both small and large power systems from generation, through transmission, distribution and utilisation of power in plant, industrial and commercial equipment.
We cover commissioning and periodic inspection of cables and their various failure modes and how to detect these faults. The often neglected topic of switchboards will be detailed next, followed by the interesting topic of interfacing to the control system (either PLC’s or other control devices).
Case studies and practical sessions are used throughout to illustrate key practical principles.
This workshop covers key elements in a practical and project focused way. Many people assume (wrongly) that inspecting, testing and commissioning is a fairly straightforward process and is simply a rubber stamp confirmation of a so-called outstanding design. Our experience in the field demonstrates quite the opposite; where the litany of problems ranges from design and installation errors to equipment manufacturing defects. It is best that these problems are identified and corrected before the inevitable downtime comes in an operational installation where many thousands of dollars are lost in correcting the faults. The situation today is made more challenging by the heightened safety requirements and interfacing to low powered electronic control and monitoring devices (such as PLC’s) using software that has to also be verified.
Hands on Data Communications, Networking & TCP/IP TroubleshootingLiving Online
THE WORKSHOP:
Data communication is given high priority in today’s industrial environment. This workshop is designed to be hands-on, providing the participants with essential knowledge and helping them to understand and troubleshoot systems.
This is a comprehensive two-day hands-on workshop that covers practical aspects of data communication such as serial communications, Ethernet networking, TCP/IP, Modbus, wireless communications and security.
This workshop is for enthusiastic engineers and technicians who wish to develop and enhance their practical knowledge in the field of data communications and networking. It will help them to understand the concepts behind data transmission, the various protocols involved, and the topologies that govern data exchange among various systems in industry. It will also equip them with the skills and tools to design and/or maintain these systems on an ongoing basis.
Fundamentals of Instrumentation, Process Control, PLCs and SCADA for Plant Op...Living Online
THE WORKSHOP:
This course represents a tremendous opportunity to gain expertise in all the key areas of the fast growing area of industrial automation in two days. Presented by an expert in the area but who is passionate with getting the key chunks of know-how and expertise across to you in a simple understandable manner which you can immediately apply to your job. This is most definitely not a boring lecture style presentation but an intensive learning experience where you will walk away with real skills as a result of the hands-on practical exercises, calculations, case studies and group sessions to ensure an understanding of the concepts and ideas discussed. You will undertake practical sessions at approximately 20 to 30 minute intervals to maximise the absorption rate.
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.
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.
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.
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.
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.
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
2. www.eit.edu.au
Technology Training that Workswww.idc-online.com/slideshare
Thank You For Your Interest
If you are interested in further training or information,
please visit:
http://www.idc-online.com/slideshare
3. Technology Training that Workswww.idc-online.com/slideshare
The Nuts and Bolts of
Smart Instrument
Standards
4. www.eit.edu.au
Technology Training that Workswww.idc-online.com/slideshare
Digital Technologies- Summary
Ethernet
Knowledge
Base
HART
FF
Profibus PA
Profibus DP
Devicenet
AS-I
PriceAcceptanceField
Intelligence
EaseBus
5. www.eit.edu.au
Technology Training that Workswww.idc-online.com/slideshare
Generic Fieldbus Advantages:
Let’s Take Off!
• Wiring savings
• Hardware savings - fewer devices (instruments barriers and I/O)
• Documentation savings - Simpler layout and drawings
• Reduced Engineering costs
• footprint savings
• Multi-variable field devices
• Interoperability and freedom of choice
• Reduced Commissioning and startup costs
• Reduced downtime
• Integrity improved
• DCS future capacity savings
6. www.eit.edu.au
Technology Training that Workswww.idc-online.com/slideshare
“Footprint” Space Savings
Before- 256 I/O Fieldbus -4000 I/O
(Slide Compliments of Emerson & Jim Russell)
7. www.eit.edu.au
Technology Training that Workswww.idc-online.com/slideshare
Which fieldbus to Select?
There is ONE RIGHT fieldbus for YOU
Engineer must decide based on: Technical Profile, budget, NPV
including LONG TERM COST OF OWNERSHIP
Business Requirements
DISCRETE - Bottling plant would be mainly discrete-most effective solution
ASi- Same may be the case for building automation
DISCRETE+CONTINUOUS-Motor Vehicle Manufacturing Plant or Electrical
Motor Control Centre- Profibus DP
CONTINUOUS PROCESS PLANT - Hybrid approach likely- MCC (Profibus DP),
PLCs (Modbus) and CPP Foundation fieldbus or Profibus PA.
(Foundation fieldbus is being selected by major CPP Operators because of its
advanced features)
8. www.eit.edu.au
Technology Training that Workswww.idc-online.com/slideshare
Foundation Fieldbus
PHYSICAL LAYER WIRE MEDIUM
H1 & HSE APPLICATIONS
SCADABRIDGE
H1
ANALYZER
PLC
H1… Lower Speed Fieldbus
• 31.25 Kbps
• Replaces 4 to 20 mA
• 2 - 32 Devices
• Power & Communications
• Intrinsically Safe
• Twisted-pair
• 1900 m length
PLC
SERVER GATEWAY
ETHERNET
HSE
HSE… High Speed E t h e r n e t
• 100 MBps
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Profibus
CNC
PC/VME
VME/PC
PLC DCS
Area
Controller
Ethernet/TCP/IP TCP/IP/Ethernet
PROFIBUS-FMS
PROFIBUS-DP PROFIBUS-PA
Factory
level
Bus Cycle
Time
< 1000 ms
Cell
Level
Bus Cycle
Time
< 100 ms
Field
Level
Bus Cycle-
Time
< 10 ms
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Ethernet – The New “RS-232”
for Process Control
• Ethernet has become the preferred method to
connect controllers from competing vendors.
PLC Network
DCS
PLC
Ethernet
DCS Network
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Industrial Wireless Networks –
what works and what the
future holds
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Wireless Sensor Networking
…it’s not cellular telephony
…it’s not just WiFi...(and it just may be the next big thing)
Each dot represents one cell phone tower.Wireless devices circa 1930
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Sensor Market: $11B in 2001
Installation (wiring) costs: >$100B
Freedonia Group report on Sensors, April 2002
• Fragmented market
platform opportunity
• Installation cost limits
penetration
reducing installation
cost increases market size
Slide courtesy of Rob Conant, Dust
Highly Fragmented
Sensor Market
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Industrial Market Sizing
Sensor Networking Products
• North American Market for Wireless products used in
Applications where transmission distances are 1 mile or
less:
– 2002 Total: $107 million
– 2006 Forecast: $713 million
– 2010 Estimates: $ 2.1 billion
• Largest Application areas:
– 2002: Tank Level Monitoring, Asset Tracking, Preventative
Maintenance
– 2006: Tank Level Monitoring, Preventative Maintenance,
Environmental Monitoring
• Conclusions:
– Rapid Growth in Industrial markets
– Tank Level Monitoring will remain a significant opportunity
– Key ‘ User’ Needs:
• Lower Costs over Wired (or Manual) Solutions
• Education of Potential Customers on the Technology
• Demonstration of Operational Reliability & Application ‘
Domain’ Knowledge Slide courtesy of Rick Kriss, Xsilogy
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What to do with the data?
But how do you get the output signal from the sensor to the location where
the information will be interpreted (used)?
Sensor Modifier Output
Transducer
Power
Supply
Parameter
of Interest
Measurement System
Output Signal
Chemical
Electrical
Mechanical
Thermal
Radiation
Optical
Magnetic
Chemical
Electrical
Mechanical
Thermal
Radiation
Optical
Magnetic
Traditionally the output of the sensor was hardwired to some form
of interpretive device (e.g., PLC) perhaps relying on a 4-20mA signal…
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Layered
Communications
A few
details…
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ZigBee and WirelessHART
• Based on similar underlying RF Technology
• IEEE 802.15.4
• Limited power consumption
• Low Throughput requirements
• Direct Sequence Spread Spectrum (DSSS)
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ISA 100a
• Based on IEEE 802.15.4
• Operating in the 2.4-GHz band
• Data rate of 250 kbits/s
• Variant of ZigBee supports star/tree, mesh,
and alternative routing networking
• Supports other industrial network
technologies like Foundation FieldBus,
ProfiBus, HART, and Ethernet.
• Recently ratified
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Integrated Industrial Networks?
There are SO many technical questions: such as…
If the sensor network is to integrate into an industrial setting, then you
should be cognizant of the Industrial Networking arena.
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Industrial Device Network Topology
• Typically, three layers of networking make up enterprise wide networks. Ethernet acts
as the company's intranet backbone, and it's linked to controllers or industrial PCs,
which supply strategic data to the enterprise. An industrial network, or fieldbus, links
sensors and smart devices. A gateway (not uncommon in a large system with lots of
devices) links devices that have only RS-232 or RS-485 ports to the fieldbus system.
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Thank You For Your Interest
If you are interested in further training or information,
please visit:
http://www.idc-online.com/slideshare