The Calgary International Airport was undergoing a large expansion project that included new customs facilities and aircraft gates. This required integrating the existing building automation system, which used Johnson Controls Metasys controllers, with a new system using Delta Controls that communicated using BACnet protocols. Installing the S4 Open:BACnet-N2 router allowed the existing Metasys controllers to continue operating while exposing their data through BACnet, enabling the new Delta system to monitor and control the existing system without replacing equipment. The S4 router automatically discovered and mapped over 1000 field devices and tens of thousands of data points, avoiding a lengthy manual mapping process. This integration was achieved with minimal disruption to airport operations.
5G New Radio Timeline after RAN#72 RP-161253Eiko Seidel
Discussion about the 5G timeline and content took place at the RAN#72 meeting in Busan in June 2016. This document is a summary that was endorsed by the RAN plenary.
3GPP Newsletter: Status 5G Architecture Study in 3GPP SA2Eiko Seidel
The System and Service Aspects – Architecture group (SA2) of 3GPP has a dedicated study item for the study of the next generation networks. It is expected that this work will form the basis of the system architecture for the future 5G networks. Within SA2 group, regular meetings and discussions are held to discuss the progress of this study item. NoMoR Research follows these activities. This report presents a condensed summary of the earlier mentioned study item, including the latest updates from the most recent meeting held in Vienna, Austria from 11th – 14th July, 2016.
Provisioning Bandwidth and Logical Circuits With Fiber ManagerSSP Innovations
Provisioning Bandwidth and Logical Circuits With Fiber Manager
Explore how Tri-State G&T is customizing Fiber Manager to manage the logical network in addition to the physical infrastructure. These customizations make it possible to manage bandwidth allocation as users traverse the physical facilities. The future of Fiber Manager may be closer than you think!
3GPP SON Series: Mobility Load Balancing (MLB)3G4G
This SON tutorial is part of the 3GPP Self-Organizing Networks series (#3GPPSONSeries). In this part we discuss the load balancing feature that was introduced as part of 3GPP Release-8 LTE. We also look at the enhancements in Release-9 and then the extension of this procedure to GSM (2G) and UMTS (3G) as part of Release-10.
All our #3G4G5G slides and videos are available at:
Videos: https://www.youtube.com/3G4G5G
Slides: https://www.slideshare.net/3G4GLtd
5G Page: https://www.3g4g.co.uk/5G/
Free Training Videos: https://www.3g4g.co.uk/Training/
SON Page: https://www.3g4g.co.uk/SON/
5G New Radio Timeline after RAN#72 RP-161253Eiko Seidel
Discussion about the 5G timeline and content took place at the RAN#72 meeting in Busan in June 2016. This document is a summary that was endorsed by the RAN plenary.
3GPP Newsletter: Status 5G Architecture Study in 3GPP SA2Eiko Seidel
The System and Service Aspects – Architecture group (SA2) of 3GPP has a dedicated study item for the study of the next generation networks. It is expected that this work will form the basis of the system architecture for the future 5G networks. Within SA2 group, regular meetings and discussions are held to discuss the progress of this study item. NoMoR Research follows these activities. This report presents a condensed summary of the earlier mentioned study item, including the latest updates from the most recent meeting held in Vienna, Austria from 11th – 14th July, 2016.
Provisioning Bandwidth and Logical Circuits With Fiber ManagerSSP Innovations
Provisioning Bandwidth and Logical Circuits With Fiber Manager
Explore how Tri-State G&T is customizing Fiber Manager to manage the logical network in addition to the physical infrastructure. These customizations make it possible to manage bandwidth allocation as users traverse the physical facilities. The future of Fiber Manager may be closer than you think!
3GPP SON Series: Mobility Load Balancing (MLB)3G4G
This SON tutorial is part of the 3GPP Self-Organizing Networks series (#3GPPSONSeries). In this part we discuss the load balancing feature that was introduced as part of 3GPP Release-8 LTE. We also look at the enhancements in Release-9 and then the extension of this procedure to GSM (2G) and UMTS (3G) as part of Release-10.
All our #3G4G5G slides and videos are available at:
Videos: https://www.youtube.com/3G4G5G
Slides: https://www.slideshare.net/3G4GLtd
5G Page: https://www.3g4g.co.uk/5G/
Free Training Videos: https://www.3g4g.co.uk/Training/
SON Page: https://www.3g4g.co.uk/SON/
3GPP SON Series: SON in 3GPP Release-8 – Self-configuration3G4G
This SON tutorial is part of the 3GPP Self-Organizing Networks series (#3GPPSONSeries). In this part we will look at what features were defined as part of 3GPP Release-8
The most basic functionality where SON helps is when a new eNodeB is switched on. This functionality is known as self-configuration which helps eNodeB decide on its parameters, codes, power levels, etc.
All our #3G4G5G slides and videos are available at:
Videos: https://www.youtube.com/3G4G5G
Slides: https://www.slideshare.net/3G4GLtd
5G Page: https://www.3g4g.co.uk/5G/
Free Training Videos: https://www.3g4g.co.uk/Training/
Enterprise Network - VoIP Service Design and AnalysisChinmay Upasani
- Worked under Professor Dragan Hrnjez, on project in Voice Over IP domain.
- Analyzing and Optimizing an Enterprise Network to Support Voice traffic using Opnet.
- Involves working on SIP signaling protocol and different voice codecs.
3GPP SON Series: Inter-Cell Interference Coordination (ICIC)3G4G
This SON tutorial is part of the 3GPP Self-Organizing Networks series (#3GPPSONSeries). In this part we will look at what is meant by Inter-Cell Interference Coordination (ICIC) and how does the standard define the mechanism to help erase it. We will also look at some of the basic algorithms used for ICIC.
All our #3G4G5G slides and videos are available at:
Videos: https://www.youtube.com/3G4G5G
Slides: https://www.slideshare.net/3G4GLtd
5G Page: https://www.3g4g.co.uk/5G/
Free Training Videos: https://www.3g4g.co.uk/Training/
This SON tutorial is part of the 3GPP Self-Organizing Networks series (#3GPPSONSeries). In this part we will look at ANR or Automatic Neighbour Relationship. As part of ANR functionality, the base station asks the UE to report the cells even if the cells are not in the list of neighbouring cells. These ‘detected cells’ reported by the UE is used by the base station to maintain an updated neighbouring cells list.
All our #3G4G5G slides and videos are available at:
Videos: https://www.youtube.com/3G4G5G
Slides: https://www.slideshare.net/3G4GLtd
5G Page: https://www.3g4g.co.uk/5G/
Free Training Videos: https://www.3g4g.co.uk/Training/
SDN Transport API Interoperability Demo with OIF and ONFDeborah Porchivina
OIF Interoperability Demonstration show that Transport SDN is becoming real. ONF T-API Specification is published, implemented and tested. Next is T-API 2.0
3GPP SON Series: SON in 3GPP Release-8 – Self-configuration3G4G
This SON tutorial is part of the 3GPP Self-Organizing Networks series (#3GPPSONSeries). In this part we will look at what features were defined as part of 3GPP Release-8
The most basic functionality where SON helps is when a new eNodeB is switched on. This functionality is known as self-configuration which helps eNodeB decide on its parameters, codes, power levels, etc.
All our #3G4G5G slides and videos are available at:
Videos: https://www.youtube.com/3G4G5G
Slides: https://www.slideshare.net/3G4GLtd
5G Page: https://www.3g4g.co.uk/5G/
Free Training Videos: https://www.3g4g.co.uk/Training/
Enterprise Network - VoIP Service Design and AnalysisChinmay Upasani
- Worked under Professor Dragan Hrnjez, on project in Voice Over IP domain.
- Analyzing and Optimizing an Enterprise Network to Support Voice traffic using Opnet.
- Involves working on SIP signaling protocol and different voice codecs.
3GPP SON Series: Inter-Cell Interference Coordination (ICIC)3G4G
This SON tutorial is part of the 3GPP Self-Organizing Networks series (#3GPPSONSeries). In this part we will look at what is meant by Inter-Cell Interference Coordination (ICIC) and how does the standard define the mechanism to help erase it. We will also look at some of the basic algorithms used for ICIC.
All our #3G4G5G slides and videos are available at:
Videos: https://www.youtube.com/3G4G5G
Slides: https://www.slideshare.net/3G4GLtd
5G Page: https://www.3g4g.co.uk/5G/
Free Training Videos: https://www.3g4g.co.uk/Training/
This SON tutorial is part of the 3GPP Self-Organizing Networks series (#3GPPSONSeries). In this part we will look at ANR or Automatic Neighbour Relationship. As part of ANR functionality, the base station asks the UE to report the cells even if the cells are not in the list of neighbouring cells. These ‘detected cells’ reported by the UE is used by the base station to maintain an updated neighbouring cells list.
All our #3G4G5G slides and videos are available at:
Videos: https://www.youtube.com/3G4G5G
Slides: https://www.slideshare.net/3G4GLtd
5G Page: https://www.3g4g.co.uk/5G/
Free Training Videos: https://www.3g4g.co.uk/Training/
SDN Transport API Interoperability Demo with OIF and ONFDeborah Porchivina
OIF Interoperability Demonstration show that Transport SDN is becoming real. ONF T-API Specification is published, implemented and tested. Next is T-API 2.0
Apóstol Said Bechara
30/12/2015
Iglesia Apostólica Tierra Fértil
Cra. 45 No. 82 - 213
Barranquilla - Colombia
@iglesiatierrafertil
comunicacionestierrafertil@gmail.com
Para Donaciones Internacionales:
Bank Of América Cuenta de Cheques #898053281512 o Cuenta de Ahorros # 898050252117.
En Colombia BanColombia # 40457667822.
La santa cena es sentarse a la mesa con Jesús, recibir del pan y el vino, compartir con el padre y ser uno con él a partir de nuestra decisión de vivir en santidad para agradarle a él.
Apóstol Said Bechara
07/04/2016
Iglesia Apostólica Tierra Fértil
Cra. 45 No. 82 - 213
Barranquilla - Colombia
@iglesiatierrafertil
comunicacionestierrafertil@gmail.com
Para Donaciones Internacionales:
Bank Of América Cuenta de Cheques #898053281512 o Cuenta de Ahorros # 898050252117.
En Colombia BanColombia # 40457667822.
This presentation by Westermo’s Technical Lead Engineers Dakota Diehl and Benjamin Campbell, is an integral part of the Westermo webinar held on April 30th 2020, covering how to simplify your network management using Westermo software tools WeConnect and WeConfig.
Watch the webinar session here: https://www.westermo.com/news-and-events/webinars/simplify-your-network-management-using-software-tools
Ctek Cellular Automation & Control Catalag 2014Lynn Woodruff
Your remote automation project is almost certainly going to need communications, and increasingly cellular communications is being recognized as the cost/performance leader. Now it’s time to take the next step and build your automation application on the same platform that is providing communications capabilities.
When configured with Ctek’s Automation Control application a SkyRouter is capable of interfacing to industry standard sensors and has all of the required logic to monitor inputs, control outputs, and react instantly to the requirements of your application.
This is the ultimate one-box solution for water/wastewater, motor-generator control, agricultural facilities, irrigation, lighting control, asset management, and much more.
Call me or go to http://www.ctekproducts.com and tell them Lynn sent you.
Repairs and maintenance of aircraft systems at Warner Robins
Air Logistics Center was tethered to an unreliable proprietary
control system prone to running the wrong recipes. The result:
irreparable damage to expensive airplane parts. Working with
PREMIER System Integrators, the organization implemented
a new solution with tightly integrated FactoryTalk® Batch,
Historian, VantagePoint® and ThinManager® software. The
new system has improved reliability and flexibility, boosting
utilization by 50 percent and saving tens of thousands of dollars
in under 60 days.
Using Kubernetes to make cellular data plans cheaper for 50M usersMirantis
Use case of Kubernetes based NFV infrastructure used in production to run an open source evolved packet core. Presented by Facebook Connectivity and Mirantis at KubeCon + CloudNativeCon Europe 2020.
Chipkin Automation - S4 Case Study - Calgary International Airport
1. Chipkin Automation Systems Inc. 3381 Cambie St, #211 Vancouver, BC, Canada, V5Z 4R3 1
Toll Free: 1-866-383-1657 Fax: (416) 915-4024
Case Study:
YYC, Calgary International Airport Upgrade
(Image Qyd, Wikimedia Commons, GNU FDL License)
Introduction
With the International Facilities Project, the Calgary International Airport is undergoing
its single largest expansion to date. The plan is to have new Canadian and U.S.
customs facilities as well as 22 additional aircraft gates. The Airport is expecting to open
the new terminal in October 2015, and will cover an area of two million square feet.
Background
The original airport was automated and maintained using a JCI Metasys system by
Johnson Controls Inc. (JCI). Many of the Metasys controllers and field devices installed
on the existing terminals are between 10 to 15 years old and are reaching the end of
their life. These terminals contained 21 Metasys Networks . When the Airport initiated
the expansion phase, ESC Automation, a partner company of Delta Controls, was
awarded the contract. Delta controls are a manufacturer of building automation
Case Study: YYC, Calgary
International Airport Upgrade
2. Chipkin Automation Systems Inc. 3381 Cambie St, #211 Vancouver, BC, Canada, V5Z 4R3 2
Toll Free: 1-866-383-1657 Fax: (416) 915-4024
controllers and field devices which communicate using the BACnet family of protocols.
Thus, the system from the new terminal would not be able to natively communicate with
the legacy system from the old terminal. The Airport had two choices, A) to remove the
Metasys system from the old terminals and replace them with a BACnet system (this
would be a huge project with considerable expenses) or B) install The S4
Open:BACnet-N2 router as an integration platform.
Major Project Challenges (from an integration point of view)
1) It is almost impossible to get ‘down’ time in an airport.
2) Normal operation must continue during construction and integration.
3) Existing terminal HVAC automation is based on JCI Metasys. New terminal is
automated using a Delta System. Airport Operations require one integrated
system for monitoring and controlling all terminals. The two systems are not
compatible.
These three challenges would become next to impossible if the airport chose to replace
the old Metasys system with a new BACnet system.
What is the S4 System and Why Has It Been Chosen?
The S4 system, aka S4 Open: BACnet-N2 Router, integrates up to three Metasys N2
busses into a single virtual bus without causing conflicts between duplicate N2
addresses. The S4 Router can also be configured to serve all N2 data into an ethernet
network using the BACnet-IP protocol. The advantage of the S4 system is that it is
extremely easy to configure and install as it automatically detects, collects and serves
the data with minimal configuration.
The S4 system was chosen for many reasons as it tends to be a superior product in its
market. Most other gateways tend to be inflexible and thus are difficult to configure and
require many hours of support. That being said, The Calgary Airport specifically chose
the S4 system because:
1) It allowed existing controllers to continue to function (as they always did) without
interruption AND at the same time expose the data via BACnet so that the new
Delta System GUI can access, monitor and control the existing Metasys system
without having to change any of the Metasys equipment.
2) A Implementation of the BACnet Priority Array Mechanism for N2 devices in the
S4 Open: BAnet-N2 router allows the integrator to control whether the legacy or
3. Chipkin Automation Systems Inc. 3381 Cambie St, #211 Vancouver, BC, Canada, V5Z 4R3 3
Toll Free: 1-866-383-1657 Fax: (416) 915-4024
new system can take control of a field point. You can have the legacy controller
controlling a particular zone while, via the S4’s BACnet interface, the zone can
be monitored using the new Delta GUI. Then as the project progresses, by
simply by starting to issue commands from the Delta system , the new GUI can
take control of the zone without making any changes to the legacy system.
3) Other gateways require the mapping between the legacy system (JCI N2 Open in
this case) and the new system (BACnet) to be done manually. The mapping
relates a point in the one system to a point in the new system. Manual mapping
is prone to manual errors and requires accurate input information about the
installed devices. The S4 gateway avoids this by connecting to and discovering
the field devices and auto creating the corresponding BACnet points to monitor
and control the field devices. The result is always accurate. This site with 21
Metasys Networks has over 1000 field devices in total. Each device has dozens
to hundreds of points. The total number of points that would need to be mapped
is tens of thousands. That constitutes a significant engineering effort. Hence a
major reason why the Calgary Airport chose the S4 solution was to save on
engineering labor cost and minimise human errors and thus increase the chance
of success of the overall system.
Key Project Outcomes and Successes
1) Using minimal effort and without disruptions to the day-to-day operations of
the busy existing airports terminals, ESC automation was able to install 21 S4
BACnet-N2 Routers and expose all existing
terminal field points as BACnet points.
2) ESC automation was then able to start building the
graphics and trends on the new BACnet GUI to
provide a new operator interface for the legacy
system and transfer all monitoring and controlling
from the old Metasys system to the new BACnet
system. They were able to start this task within
weeks of project commencement and without
disruptions to the day-to-day operations.
3) In the end, ESC automation was able to connect all the devices (see table to
the right) from the legacy Metasys system to the new BACnet system quickly
and efficiently. A project of this caliber would have taken months using any
other system.
4. Chipkin Automation Systems Inc. 3381 Cambie St, #211 Vancouver, BC, Canada, V5Z 4R3 4
Toll Free: 1-866-383-1657 Fax: (416) 915-4024
Russell Kramer, the Chipkin Automation Engineer that manages S4 Integration projects
states that “Using any other system for a project of this magnitude would have been
very complicated and the estimated time to completion would have taken 10 to 20 times
longer”. For more information about this project please contact Jamie Fife, Director of
Sales and Marketing at 647-559-4139 or jfife@chipkin.com
Chipkin Automation Services Founded in October 2000, Chipkin Automation Systems (CAS) are
building and industrial automation protocol experts. We sell, support, develop, install and configure
protocol converters/ gateways, data loggers, remote monitoring and control applications. CAS
focuses on machine to machine data communications and remote monitoring. Our skills and
solutions include protocols like BACnet, Modbus, Lonworks as well as interfaces for fire, HVAC,
lighting and other systems such as Simplex, Notifier, McQuay, GE to name just a few. With CAS,
you are buying a solution not a commodity: The combination of configuration, expertise in this field
and support via phone, email and remote desktop tools means CAS is right there with you. As CAS
sells its own and solutions by other vendors you can rest assured that CAS will select the most
appropriate solution for your application. With offices in 3 countries, covering multiple time zones, we
are able to provide support when you need it
.