The document provides guidance on installing and positioning Irisys people counters. It explains that the counter detects people's body heat using infrared radiation and tracks them as they walk through its field of view. It provides tips on mounting a single counter centrally above an entrance and positioning multiple counters for wide openings. Guidelines are given for optimal positioning based on the counter's lens angle and ceiling height. Specific scenarios such as corridors, elevators, and outdoor installations are also addressed. A warning is also given about using non-compliant PoE switches which could damage the counter.
Este es el Hardware utilizado en nuestra solución de conteo de personas, sensores diseñador y fabricados en inglaterra por Irisys (empresa del grupo fluke) cuya especialidad es tecnología termica.
Estos sensores se comportan de forma precisa, teniendo un margen de error de captura del 2 al 5%, siendo un dato fiable la mètrica arrojada.
Dichos sensores operan a alturas de hasta 12 mts, dibujando una pirámide de base cuadrada de igual medida.
This document discusses energy efficiency retrofits for laboratories through case studies of automatic sash closer installations. It introduces EECO2 and TEL, energy consulting and airflow monitoring companies, and describes their typical project process of investigating a site, identifying potential projects, implementing solutions like variable air volume controls and sash closers, and verifying energy savings. A case study details a project at the Wilton Centre that installed VAV dampers, fume cupboard controls, and room air balancing, achieving a 60% reduction in electricity use and 9.5% reduction in steam. Sash closers use PIR sensors to detect users and safely close fume hood sashes when unoccupied, preventing unnecessary ventilation.
An overview of Eurotech's high-accuracy Automatic People and Passenger Counters (APC).
Eurotech's people and passenger counting systems are compact and autonomous devices designed to be installed above doorways of buses, trains, buildings and any other area where access monitoring is required.
Incorporating IoT and cloud infrastructures allows integration with people management applications such as fleet and public transport optimization, allowing train or bus lines and schedules to be adjusted according to the passenger flow.
Based on a stereoscopic vision system, our people counting devices ensure reliable and precision performance while their rugged design makes them suitable to the most demanding environments.
The document discusses various sensor technologies and solutions for lighting and air conditioning loads. It describes the differences between motion and occupancy sensors, listing various sensor types from different solution providers including PIR, DALI, KNX, and wireless options. It also provides information on applications of different sensor types and benchmark energy savings for common areas.
Guia de instalacion de sensor cuenta personas SpotONENextPoints
Guía de instalación de los sensores cuenta-personas SpotONE, con comunicación inalámbrica y tecnología infra-roja o térmica, para poder controlar el flujo de personas por pasos anchos y estrechos.
Office building [Autosaved] [Recovered] one dirve.pptxNashmilYahya
Introduction:
In this extensive PowerPoint presentation, we delve into the intricate world of office design, exploring the guidelines and strategic processes that contribute to the creation of inspiring and functional workspaces. As businesses increasingly recognize the profound impact of the physical work environment on employee well-being, productivity, and organizational culture, this presentation seeks to provide a comprehensive guide for designing offices that align with the unique needs and goals of modern organizations.
Section 1: Understanding Organizational Needs (Slides 2-4)
We initiate our journey by emphasizing the critical importance of aligning office design with the overarching goals and values of the organization. We explore the intricacies of organizational culture, workflows, and employee preferences, highlighting the need for a deep understanding of these factors as a foundation for effective office design.
Section 2: Defining Design Objectives (Slides 5-6)
Building upon the understanding of organizational needs, we move on to the process of defining clear design objectives. Whether the focus is on promoting collaboration, enhancing productivity, fostering flexibility, or prioritizing employee well-being, this section guides the audience through the crucial step of establishing measurable and achievable design goals.
Section 3: Space Planning and Layout (Slides 7-8)
The success of an office design lies in the thoughtful arrangement of spaces. We explore the principles of space planning and layout, addressing the delicate balance between open and private spaces. This section delves into ergonomic considerations, emphasizing the importance of furniture and layout in creating a conducive work environment.
Section 4: Zoning and Functionality (Slides 9-10)
Zoning within the office space is a key concept in our discussion. We explore how different zones cater to specific functions, such as collaboration, focus work, and meetings. Real-world examples showcase successful zoning strategies, providing inspiration for incorporating functionality into the design.
Section 5: Flexibility and Adaptability (Slides 11-12)
A modern office must be adaptable to the ever-evolving needs of a dynamic workforce. This section delves into the necessity of flexibility, discussing the benefits of modular furniture, movable partitions, and versatile workstations. Practical insights are shared to illustrate how adaptability can be seamlessly integrated into the office design.
Section 6: Integrating Technology (Slides 13-14)
Technology plays a pivotal role in shaping the contemporary workplace. We discuss the integration of smart systems, connectivity solutions, and collaborative tools into the office design. This section explores how thoughtful incorporation of technology can enhance efficiency and streamline daily operations.
Section 7: Lighting and Acoustics (Slides 15-16)
Lighting and acoustics contribute significantly to the overall well-being of
The document discusses conducting an interior and exterior site survey of a customer's home for a Dish4You satellite installation. The site survey involves checking that equipment locations and cable routing plans are acceptable to the customer, verifying that TVs and electrical outlets are working properly, and measuring satellite signal strength and voltage levels at different points to ensure proper system function. Key steps include reviewing the work order, inspecting for safety hazards, determining installation locations and cable paths, checking TV and outlet status, and measuring voltages at the receiver, ground block, and LNBF to identify any potential issues.
BEA's LZR-WIDESCAN is a LASER-based, Time-of-Flight sensor used for motion, safety and presence detection in a variety of industrial door applications. This all-in-one solution offers the benefits of activation and safety, while reducing installation time.
Este es el Hardware utilizado en nuestra solución de conteo de personas, sensores diseñador y fabricados en inglaterra por Irisys (empresa del grupo fluke) cuya especialidad es tecnología termica.
Estos sensores se comportan de forma precisa, teniendo un margen de error de captura del 2 al 5%, siendo un dato fiable la mètrica arrojada.
Dichos sensores operan a alturas de hasta 12 mts, dibujando una pirámide de base cuadrada de igual medida.
This document discusses energy efficiency retrofits for laboratories through case studies of automatic sash closer installations. It introduces EECO2 and TEL, energy consulting and airflow monitoring companies, and describes their typical project process of investigating a site, identifying potential projects, implementing solutions like variable air volume controls and sash closers, and verifying energy savings. A case study details a project at the Wilton Centre that installed VAV dampers, fume cupboard controls, and room air balancing, achieving a 60% reduction in electricity use and 9.5% reduction in steam. Sash closers use PIR sensors to detect users and safely close fume hood sashes when unoccupied, preventing unnecessary ventilation.
An overview of Eurotech's high-accuracy Automatic People and Passenger Counters (APC).
Eurotech's people and passenger counting systems are compact and autonomous devices designed to be installed above doorways of buses, trains, buildings and any other area where access monitoring is required.
Incorporating IoT and cloud infrastructures allows integration with people management applications such as fleet and public transport optimization, allowing train or bus lines and schedules to be adjusted according to the passenger flow.
Based on a stereoscopic vision system, our people counting devices ensure reliable and precision performance while their rugged design makes them suitable to the most demanding environments.
The document discusses various sensor technologies and solutions for lighting and air conditioning loads. It describes the differences between motion and occupancy sensors, listing various sensor types from different solution providers including PIR, DALI, KNX, and wireless options. It also provides information on applications of different sensor types and benchmark energy savings for common areas.
Guia de instalacion de sensor cuenta personas SpotONENextPoints
Guía de instalación de los sensores cuenta-personas SpotONE, con comunicación inalámbrica y tecnología infra-roja o térmica, para poder controlar el flujo de personas por pasos anchos y estrechos.
Office building [Autosaved] [Recovered] one dirve.pptxNashmilYahya
Introduction:
In this extensive PowerPoint presentation, we delve into the intricate world of office design, exploring the guidelines and strategic processes that contribute to the creation of inspiring and functional workspaces. As businesses increasingly recognize the profound impact of the physical work environment on employee well-being, productivity, and organizational culture, this presentation seeks to provide a comprehensive guide for designing offices that align with the unique needs and goals of modern organizations.
Section 1: Understanding Organizational Needs (Slides 2-4)
We initiate our journey by emphasizing the critical importance of aligning office design with the overarching goals and values of the organization. We explore the intricacies of organizational culture, workflows, and employee preferences, highlighting the need for a deep understanding of these factors as a foundation for effective office design.
Section 2: Defining Design Objectives (Slides 5-6)
Building upon the understanding of organizational needs, we move on to the process of defining clear design objectives. Whether the focus is on promoting collaboration, enhancing productivity, fostering flexibility, or prioritizing employee well-being, this section guides the audience through the crucial step of establishing measurable and achievable design goals.
Section 3: Space Planning and Layout (Slides 7-8)
The success of an office design lies in the thoughtful arrangement of spaces. We explore the principles of space planning and layout, addressing the delicate balance between open and private spaces. This section delves into ergonomic considerations, emphasizing the importance of furniture and layout in creating a conducive work environment.
Section 4: Zoning and Functionality (Slides 9-10)
Zoning within the office space is a key concept in our discussion. We explore how different zones cater to specific functions, such as collaboration, focus work, and meetings. Real-world examples showcase successful zoning strategies, providing inspiration for incorporating functionality into the design.
Section 5: Flexibility and Adaptability (Slides 11-12)
A modern office must be adaptable to the ever-evolving needs of a dynamic workforce. This section delves into the necessity of flexibility, discussing the benefits of modular furniture, movable partitions, and versatile workstations. Practical insights are shared to illustrate how adaptability can be seamlessly integrated into the office design.
Section 6: Integrating Technology (Slides 13-14)
Technology plays a pivotal role in shaping the contemporary workplace. We discuss the integration of smart systems, connectivity solutions, and collaborative tools into the office design. This section explores how thoughtful incorporation of technology can enhance efficiency and streamline daily operations.
Section 7: Lighting and Acoustics (Slides 15-16)
Lighting and acoustics contribute significantly to the overall well-being of
The document discusses conducting an interior and exterior site survey of a customer's home for a Dish4You satellite installation. The site survey involves checking that equipment locations and cable routing plans are acceptable to the customer, verifying that TVs and electrical outlets are working properly, and measuring satellite signal strength and voltage levels at different points to ensure proper system function. Key steps include reviewing the work order, inspecting for safety hazards, determining installation locations and cable paths, checking TV and outlet status, and measuring voltages at the receiver, ground block, and LNBF to identify any potential issues.
BEA's LZR-WIDESCAN is a LASER-based, Time-of-Flight sensor used for motion, safety and presence detection in a variety of industrial door applications. This all-in-one solution offers the benefits of activation and safety, while reducing installation time.
Electric meters measure the amount of electric energy consumed. There are two main types - electromechanical induction meters and electronic meters. Electromechanical meters use rotating disks and electromagnets to measure power integrated over time into kilowatt-hours. Electronic meters use digital microchips to sample voltage and current and convert this into pulses representing kilowatt-hours. Meters must be mounted in accessible locations according to safety standards to allow for reading and maintenance.
Design 101: How to layout an Enlighted system in CADEnlightedInc
This webinar will provide an overview on how to layout an Enlighted system in CAD. It will cover product functionality and field considerations that will ensure a successful design, layout, and installation of your Enlighted system. This webinar is geared to CAD design teams with a focus on California projects, but all are welcome.
Attendees will learn the individual components and product specifications for proper system layout. In addition, we will cover common space types and field scenarios to how simple it is to transform lighting into a building system that goes far beyond basic illumination and basic lighting control functionality. Finally we will review design considerations to ensure CA Title 24 compliance.
A height gauge is a measuring device used to determine the height of objects or mark repetitive heights. It has a vertical column with a sliding unit that can move up and down. An arm extends from the gauge to contact the object being measured. Height gauges can be vernier, dial, or digital/electronic. Vernier height gauges rely on user skill while digital gauges provide precise electronic measurements. Height gauges are used to mark lines, check hole depths, and mark locations on machine parts.
The document provides a quick installation guide for the EnGenius EWS-series wireless management switches and access points. It includes instructions on unpacking the package contents, requirements for installation location, how to mount the switch on a flat surface or rack, how to connect devices to the switch and manage it through a web browser interface. It also describes how to locate, add and manage wireless access points connected to the switch through the management interface.
The document provides a quick installation guide for the EnGenius EWS7952FP wireless management switch. It includes instructions on unpacking the package contents and installing the switch on a flat surface or rack. It also gives steps for connecting the switch and other devices, and accessing the web-based user interface to manage and configure the switch and any connected wireless access points. Key functions covered include locating and adding access points for management, and configuring network settings for the devices.
This document discusses types of pressure gauges according to usage, including commercial and industrial gauges, process gauges, low pressure gauges, seal gauges, high precision test gauges, and duplex gauges. It also covers specifications, causes of acoustic-induced vibration, temperature limits, materials of construction, installation procedures, calibration methods using a dead weight tester, selection criteria, and conformity to industry standards.
Wireless sensors can help reduce energy bills by controlling electrical switches and devices without wiring. The sensors use wireless communication to transmit signals to actuator nodes behind switches. This allows single sensors to control multiple switches and devices located in different areas. Wireless sensors provide benefits like easy installation within an hour without disrupting operations, maintaining aesthetics by eliminating wires, and variable control of different devices. They are suited for situations with intermittent occupancy like offices, classrooms, and warehouses.
The document provides information on various products from the AKCPro Server product catalog, including:
- Containment Mapping software that generates hot/cold aisle containment maps from floorplans and assigns sensors to racks.
- Customizable desktops that display sensor data, maps, graphs, and video feeds in predetermined or custom layouts for live or historical data review.
- Drilldown mapping desktops that allow zooming from a world view to localized floorplans to monitor multiple sites.
- Video integration that synchronizes sensor events with IP camera video for playback of critical events.
- Access control administration and door access logs/reports that can be synchronized with video.
- Tablet
The document provides a quick installation guide for the EnGenius EWS-series wireless management switches. It includes unpacking the package contents, instructions for installing the switch on a flat surface or rack, connecting devices to the switch, and managing the switch and connected access points through a web browser-based graphical user interface. Key steps are to connect the switch to a power source, connect a computer to the switch via Ethernet, and log into the switch's IP address in a web browser using the default username and password.
Introduction to the first fully open source professional home automation platform: OpenMotics (https://www.openmotics.com).
This presentation contains an introduction to the company, its values and products.
For more information: https://www.openmotics.com
For technical documentation and specifications: https://wiki.openmotics.com
For source code: http://github.com/openmotics
You can also find us on Facebook, Twitter, Goole+ and Youtube.
The document provides instructions for installing and setting up an EnGenius EWS-series wireless management switch. It describes unpacking the package contents, installing the switch on a flat surface or rack, connecting devices to the switch ports, and accessing the switch's web interface using a default IP and login credentials. It also gives steps for locating, adding, and managing wireless access points and configuring switch settings through the browser-based user interface.
The IS Series is an IP video intercom system that provides centralized security management for facilities through a network of IP and hardwired components. It can connect up to 160 master stations, 160 video door stations, and 960 room sub stations per site in a flexible system that scales from small to large facilities. The system uses color video and audio communication to identify visitors and assist them remotely from any master station.
Learn how to deploy hundreds of Aruba Beacons, powered by Bluetooth Low Energy (BLE), and manage them centrally or via a mobile app. We'll also discuss how your business partners can take advantage of the Aruba Meridian platform to kick start their mobile engagement efforts and personalize the customer Wi-Fi experience using a custom-branded mobile app and indoor location services.
Product Launch By Messung ( Excellence & Innovation in Business since 1981)Messung ERFI
Three decades of experience in design, manufacturing & quality control of industrial electronic products.
With an understanding of challenges faced is testing & quality control , Messung today serves the Indian electronics industry in the domain of Testing & Measuring workstations
Messung in partnership with Erfi, launches world-class Testing & Measuring workplace systems in India
German made precision equipment by Erfi meets market knowledge & experience of Messung
Plan to cater to the diverse electronics market throughout India
Equipos de medición de rugosidad portátiles y para laboratorio.
Hommel-Etamic ha desarrollado varios sistemas de medición para cada necesidad en la planta de producción.
This document provides installation instructions for a Bright Covers patio cover system. It begins with general recommendations to fully read and understand the instructions before installation. The document then lists required tools and system components. It provides details on laying out the system, including minimum pitch requirements and height measurements. Instructions are given for installing the hanging rail to the house or roof, as well as for installing the posts and I-beam. Diagrams illustrate hanging rail connection details. The document aims to ensure a successful standard installation of the Bright Covers system.
CONNECTING THE CORPORATE HQ.
How to overcome interference, signal overlap & containment and architectural challenges
---
A business campus is the home away from home to millions of busy professionals around the world who increasingly demand constant and seamless connectivity.
Emails, video conference calls, and heavy downloads are just some of the actions that business people do on their mobile phones daily. Strong, reliable and fast wireless connectivity is no longer a nice to have at the workplace – it is a MUST.
But designing the wireless network for business campuses presents unique challenges, including:
- High residual macro interference at higher floors from macro signal;
- Containment of the indoor signal;
- Overlapping in-building coverage for buildings in close proximity;
- Multi-level 3D building modeling;
- Quality coverage and seamless handoff for stairwells and elevator shafts.
These and other specific design needs and best practices are covered in this presentation.
View the video recording of the webinar: ibwave.com/Resources/PastWebinars/WebinarApril152015.aspx
Read the original case study: ibwave.com/blog/connecting-the-corporate-hq-case-study
The Most Inspiring Entrepreneurs to Follow in 2024.pdfthesiliconleaders
In a world where the potential of youth innovation remains vastly untouched, there emerges a guiding light in the form of Norm Goldstein, the Founder and CEO of EduNetwork Partners. His dedication to this cause has earned him recognition as a Congressional Leadership Award recipient.
AI Transformation Playbook: Thinking AI-First for Your BusinessArijit Dutta
I dive into how businesses can stay competitive by integrating AI into their core processes. From identifying the right approach to building collaborative teams and recognizing common pitfalls, this guide has got you covered. AI transformation is a journey, and this playbook is here to help you navigate it successfully.
Electric meters measure the amount of electric energy consumed. There are two main types - electromechanical induction meters and electronic meters. Electromechanical meters use rotating disks and electromagnets to measure power integrated over time into kilowatt-hours. Electronic meters use digital microchips to sample voltage and current and convert this into pulses representing kilowatt-hours. Meters must be mounted in accessible locations according to safety standards to allow for reading and maintenance.
Design 101: How to layout an Enlighted system in CADEnlightedInc
This webinar will provide an overview on how to layout an Enlighted system in CAD. It will cover product functionality and field considerations that will ensure a successful design, layout, and installation of your Enlighted system. This webinar is geared to CAD design teams with a focus on California projects, but all are welcome.
Attendees will learn the individual components and product specifications for proper system layout. In addition, we will cover common space types and field scenarios to how simple it is to transform lighting into a building system that goes far beyond basic illumination and basic lighting control functionality. Finally we will review design considerations to ensure CA Title 24 compliance.
A height gauge is a measuring device used to determine the height of objects or mark repetitive heights. It has a vertical column with a sliding unit that can move up and down. An arm extends from the gauge to contact the object being measured. Height gauges can be vernier, dial, or digital/electronic. Vernier height gauges rely on user skill while digital gauges provide precise electronic measurements. Height gauges are used to mark lines, check hole depths, and mark locations on machine parts.
The document provides a quick installation guide for the EnGenius EWS-series wireless management switches and access points. It includes instructions on unpacking the package contents, requirements for installation location, how to mount the switch on a flat surface or rack, how to connect devices to the switch and manage it through a web browser interface. It also describes how to locate, add and manage wireless access points connected to the switch through the management interface.
The document provides a quick installation guide for the EnGenius EWS7952FP wireless management switch. It includes instructions on unpacking the package contents and installing the switch on a flat surface or rack. It also gives steps for connecting the switch and other devices, and accessing the web-based user interface to manage and configure the switch and any connected wireless access points. Key functions covered include locating and adding access points for management, and configuring network settings for the devices.
This document discusses types of pressure gauges according to usage, including commercial and industrial gauges, process gauges, low pressure gauges, seal gauges, high precision test gauges, and duplex gauges. It also covers specifications, causes of acoustic-induced vibration, temperature limits, materials of construction, installation procedures, calibration methods using a dead weight tester, selection criteria, and conformity to industry standards.
Wireless sensors can help reduce energy bills by controlling electrical switches and devices without wiring. The sensors use wireless communication to transmit signals to actuator nodes behind switches. This allows single sensors to control multiple switches and devices located in different areas. Wireless sensors provide benefits like easy installation within an hour without disrupting operations, maintaining aesthetics by eliminating wires, and variable control of different devices. They are suited for situations with intermittent occupancy like offices, classrooms, and warehouses.
The document provides information on various products from the AKCPro Server product catalog, including:
- Containment Mapping software that generates hot/cold aisle containment maps from floorplans and assigns sensors to racks.
- Customizable desktops that display sensor data, maps, graphs, and video feeds in predetermined or custom layouts for live or historical data review.
- Drilldown mapping desktops that allow zooming from a world view to localized floorplans to monitor multiple sites.
- Video integration that synchronizes sensor events with IP camera video for playback of critical events.
- Access control administration and door access logs/reports that can be synchronized with video.
- Tablet
The document provides a quick installation guide for the EnGenius EWS-series wireless management switches. It includes unpacking the package contents, instructions for installing the switch on a flat surface or rack, connecting devices to the switch, and managing the switch and connected access points through a web browser-based graphical user interface. Key steps are to connect the switch to a power source, connect a computer to the switch via Ethernet, and log into the switch's IP address in a web browser using the default username and password.
Introduction to the first fully open source professional home automation platform: OpenMotics (https://www.openmotics.com).
This presentation contains an introduction to the company, its values and products.
For more information: https://www.openmotics.com
For technical documentation and specifications: https://wiki.openmotics.com
For source code: http://github.com/openmotics
You can also find us on Facebook, Twitter, Goole+ and Youtube.
The document provides instructions for installing and setting up an EnGenius EWS-series wireless management switch. It describes unpacking the package contents, installing the switch on a flat surface or rack, connecting devices to the switch ports, and accessing the switch's web interface using a default IP and login credentials. It also gives steps for locating, adding, and managing wireless access points and configuring switch settings through the browser-based user interface.
The IS Series is an IP video intercom system that provides centralized security management for facilities through a network of IP and hardwired components. It can connect up to 160 master stations, 160 video door stations, and 960 room sub stations per site in a flexible system that scales from small to large facilities. The system uses color video and audio communication to identify visitors and assist them remotely from any master station.
Learn how to deploy hundreds of Aruba Beacons, powered by Bluetooth Low Energy (BLE), and manage them centrally or via a mobile app. We'll also discuss how your business partners can take advantage of the Aruba Meridian platform to kick start their mobile engagement efforts and personalize the customer Wi-Fi experience using a custom-branded mobile app and indoor location services.
Product Launch By Messung ( Excellence & Innovation in Business since 1981)Messung ERFI
Three decades of experience in design, manufacturing & quality control of industrial electronic products.
With an understanding of challenges faced is testing & quality control , Messung today serves the Indian electronics industry in the domain of Testing & Measuring workstations
Messung in partnership with Erfi, launches world-class Testing & Measuring workplace systems in India
German made precision equipment by Erfi meets market knowledge & experience of Messung
Plan to cater to the diverse electronics market throughout India
Equipos de medición de rugosidad portátiles y para laboratorio.
Hommel-Etamic ha desarrollado varios sistemas de medición para cada necesidad en la planta de producción.
This document provides installation instructions for a Bright Covers patio cover system. It begins with general recommendations to fully read and understand the instructions before installation. The document then lists required tools and system components. It provides details on laying out the system, including minimum pitch requirements and height measurements. Instructions are given for installing the hanging rail to the house or roof, as well as for installing the posts and I-beam. Diagrams illustrate hanging rail connection details. The document aims to ensure a successful standard installation of the Bright Covers system.
CONNECTING THE CORPORATE HQ.
How to overcome interference, signal overlap & containment and architectural challenges
---
A business campus is the home away from home to millions of busy professionals around the world who increasingly demand constant and seamless connectivity.
Emails, video conference calls, and heavy downloads are just some of the actions that business people do on their mobile phones daily. Strong, reliable and fast wireless connectivity is no longer a nice to have at the workplace – it is a MUST.
But designing the wireless network for business campuses presents unique challenges, including:
- High residual macro interference at higher floors from macro signal;
- Containment of the indoor signal;
- Overlapping in-building coverage for buildings in close proximity;
- Multi-level 3D building modeling;
- Quality coverage and seamless handoff for stairwells and elevator shafts.
These and other specific design needs and best practices are covered in this presentation.
View the video recording of the webinar: ibwave.com/Resources/PastWebinars/WebinarApril152015.aspx
Read the original case study: ibwave.com/blog/connecting-the-corporate-hq-case-study
The Most Inspiring Entrepreneurs to Follow in 2024.pdfthesiliconleaders
In a world where the potential of youth innovation remains vastly untouched, there emerges a guiding light in the form of Norm Goldstein, the Founder and CEO of EduNetwork Partners. His dedication to this cause has earned him recognition as a Congressional Leadership Award recipient.
AI Transformation Playbook: Thinking AI-First for Your BusinessArijit Dutta
I dive into how businesses can stay competitive by integrating AI into their core processes. From identifying the right approach to building collaborative teams and recognizing common pitfalls, this guide has got you covered. AI transformation is a journey, and this playbook is here to help you navigate it successfully.
Enhancing Adoption of AI in Agri-food: IntroductionCor Verdouw
Introduction to the Panel on: Pathways and Challenges: AI-Driven Technology in Agri-Food, AI4Food, University of Guelph
“Enhancing Adoption of AI in Agri-food: a Path Forward”, 18 June 2024
Ellen Burstyn: From Detroit Dreamer to Hollywood Legend | CIO Women MagazineCIOWomenMagazine
In this article, we will dive into the extraordinary life of Ellen Burstyn, where the curtains rise on a story that's far more attractive than any script.
During the budget session of 2024-25, the finance minister, Nirmala Sitharaman, introduced the “solar Rooftop scheme,” also known as “PM Surya Ghar Muft Bijli Yojana.” It is a subsidy offered to those who wish to put up solar panels in their homes using domestic power systems. Additionally, adopting photovoltaic technology at home allows you to lower your monthly electricity expenses. Today in this blog we will talk all about what is the PM Surya Ghar Muft Bijli Yojana. How does it work? Who is eligible for this yojana and all the other things related to this scheme?
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2. How the People Counter Works
The counter looks down on the area where people are to be
counted.
As people walk underneath the counter they are detected
and tracked.
3. How the People Counter Works
The counters field of view is, effectively, a square on the
ground.
Think of it as a three dimensional pyramid stretching from
the ceiling to the floor.
4. How the People Counter Works
As people walk underneath the counter, their
body heat is detected as infrared radiation.
Once detected the source of infrared
is tracked around the field of view
and is counted if it crosses either of
the two (by default)
virtual count lines
(configured at time of
install).
5. Dual View Counter
The dual view counter model provides an additional
video view alongside the thermal view.
This allows for:
•
•
Remote setup and diagnostics
Counter performance monitoring and validation
services
6. How the People Counter Works
Multiple counters can be connected together, if
required, in order to count through a very wide
entrance:
•
One IP master can be installed with up to
seven node units, to form a ‘Wide Opening
Network’ of 8 Units.
•
One IP dual view master can be installed
with two node units, to form a ‘Wide
Opening Network’ of 3 Units.
8. Mounting Locations
Things to look for:
•
The counter should be positioned above where people
walk and away from areas where people queue
or stop
20°
Outdoor
•
The counter needs a clear view of the area
Version
Only
beneath so position away from obstacles and
signage hanging underneath
•
Three lens versions of the counter
are available dependant on
ceiling/mounting height
60°
40°
10. Mounting Locations
For most standard double door entrances, a single unit will
usually be enough.
Front
View
A single counter should be positioned centrally to the door,
so that the field of view extends to the left and right side of
the door.
11. Mounting Locations
To confirm that a single unit is enough, measure the height
of the ceiling and width of the door.
W
H
Front
View
And look up the information on the mounting height graph
(Irisys document IPU40188).
12. Mounting Height Graph (m)
The dotted line shows the maximum distance that counters
can be mounted to ensure the minimum amount of overlap:
60°
Lens
4.8m
7.5m
4.5m
7.0m
20°
Lens
Outdoor only
40°
Lens
2.5m
2.2m
8.0m
4.0m
3.5m
7.0m
15.5m
14.5m
13. Mounting Height Graph (inches)
Use the ceiling height to find the width of the field of view
for a single unit, and compare that to the width of the door:
189”
60°
Lens
295”
177”
275”
610”
20°
Lens
Outdoor only
40°
Lens
98”
87”
315”
157”
138”
275”
571”
14. Mounting Locations
If security barriers are in the field of view of the counter,
at height H, the field of view should exceed the width of
the barriers slightly:
H
Front
View
15. Mounting Locations
If no security barriers, then the counters field of view, at
height H, should exceed the width of the door plus ½m
each side (ideally):
½m
H
½m
Front
View
16. Mounting Locations - Examples
Do Not Position Counter Too far away from the Door as
people could be missed if they turn left or right:
Overhead View
Side View
17. Mounting Locations - Examples
Do not position counter too close to the door as some of
the field of view will be blocked and unusable - the
counter will also not ‘see’ through the glass:
Overhead View
Side View
18. Mounting Locations - Examples
In any case, the counter should not be positioned
directly above the swing of a door:
Overhead View
Side View
19. Mounting Locations - Examples
And should not be mounted between the two doors of a
double door:
Overhead View
Side View
20. Mounting Locations - Examples
Instead mount the Counter outside the swing of a door:
Overhead View
Side View
21. Mounting Locations - Examples
And away from the swing of a double door:
Overhead View
Side View
22. Mounting Locations - OPTIMUM
The optimum position for the Counter is where the field
of view meets the ‘door line’:
Overhead View
Side View
23. Mounting Locations - OPTIMUM
Optimal position is central to door, approximately half the
field of view away from the door:
½ FOV
½ FOV
FOV
Overhead View
Side View
24. Mounting Locations - Examples
But, if the door is fully open and is undercover, e.g. a
shop in a mall, the units can be positioned closer to the
lease line if required – but do not block out any of the
FOV:
Overhead View
Side View
25. Mounting Locations - Examples
If installing in a ‘corner’ location the field of view can also
be maximised by installing away from the side wall:
½ FOV
½ FOV
½ FOV
FOV
26. Mounting Locations - Examples
Do not exceed the maximum height of the counter. If
required, lower the counter instead. Example:
40°
60°
Side View
60°
27. Mounting Locations - Examples
Lowering of the counter will be required if ducting, light
fittings etc could block part, or all, of the field of view:
Side View
28. Mounting Locations - Examples
Also, do not go below the minimum mounting height:
<2.2m
(87inches)
Side View
29. Mounting Locations - Examples
If possible, recess the counter to increase the height:
Min
>2.2m
(87inches)
Recommended
>2.5m
(98inches)
Side View
30. Mounting Locations - Corridors
In Corridor-like locations the counter should be mounted
away from areas that might cause people to stop in the
middle of the field of view. Avoid:
•
Chairs, sofas, and other waiting areas
•
Side doors
•
Filing cabinets, water-coolers, coffee machines, pay
phones, or anywhere that a person could stop
Overhead View
31. Mounting Locations - Elevators
For counting at Elevators, correct counter placement on
the ceiling is crucial:
Elevator Shaft
X
For 60° units:
X = Tan (60 / 2) h
h
Or
X = 0.577 h
Elevator
Counter should ‘see’
Under the Wall and
Through Elevator
Doors (when open)
Side View
32. Mounting Locations - Elevators
When using 40 degree units at Elevators, correct counter
placement on the ceiling is even more critical:
X
For 40° units:
Elevator
Shaft
X = Tan (40 / 2) h
h
Or
X = 0.364 h
Elevator
Counter should ‘see’
Under the Wall and
Through Elevator
Doors (when open)
Side View
33. Mounting Locations - Elevators
When counting at Elevators, each separate Elevator
should have its own counter, mounted centrally to the
door. Do not worry if their field of views overlap:
Overhead View
34. Mounting Locations – Elevators
In most cases, counting at the approach to the elevator
rather than directly through the elevator doors, will be
the preferred method, if possible.
This will be more accurate in the majority of cases. E.g.:
Side View
35. Mounting Locations – Elevator Lobbies
Counting IN and OUT of an elevator lobby will be more
accurate than counting IN and OUT of the elevator:
Elevator
Elevator Lobby
Overhead View
Elevator
36. Mounting Locations – Escalators/Stairs
Counting directly over stairs or escalators is not
recommended. Instead count at the very top or bottom:
Stairs
Side View
Escalators
37. Mounting Locations - Stairs
Alternatively, count at a ‘landing’ point on stairs, if
possible:
Side View
38. Mounting Locations - Escalators
Stay clear of the ‘landing
zone’ at the top and bottom
of escalators:
•
These can create
thermal reflections
which can mask
genuine targets
Side View
‘Landing zone’
39. Outdoor Installations
For outdoor installations - even when undercover – the
outdoor variant counter should be used:
•
•
Outdoor counters are designed to resist water
penetration from the weather
They also have a breather valve in order to prevent
damage from condensation build up
40. Counter Base Installation
•
Ensure Base is level to the ground
- Remember that the ceiling may not be
- Pack under the base if required
•
Pay attention to the orientation of the Base,
always point arrow into the store
•
Secure base to the ceiling using
mounting holes provided with
appropriate fixings
•
Once the base is correctly aligned lock
in place using this screw position
41. Cable Connections
There are two types of base board:
IP Master
•
IP Connection
•
Power Connection
•
Wide Opening Network
Connection
•
Used on every door installation
IP
Wide Opening
•
Used in Dual View Counter too
Connections
Node
•
Power Connection
•
Two Wide Opening Network
Connections
•
Must be used in conjunction
with an IP master, if required
42. Cable Connections
Outdoor counters have the same connections as the
indoor counters.
IP Master
•
IP Connection
•
Power Connection
•
Wide Opening Network Connection
IP
Node
•
Power Connection
•
Two Wide Opening Network
Connections
•
Must be used in conjunction with an
IP master, if required
Wide Opening Connections
43. Cable Connections
For a single counter installation:
•
IP Master base board is used
•
Power can be via dedicated power terminal or via
power over CAT5 (not PoE)
•
Counter must be grounded
12 – 28V
Power Injector (IWC3060)
sends power down the spare
pairs in the CAT5 cable
Power Injector supply
15 – 28V
44. PoE Warning
Irisys IP enabled counters are NOT PoE compliant
•
PoE switches supply
44 – 57V
•
Irisys IP Counter require
12 – 28V
•
PoE Voltage levels will destroy an Irisys IP counter!
As part of the 802.3af (PoE) specification:
•
PoE switches should not supply voltage to a non-PoE
device
•
PoE switches should provide isolation between all
cable connections and ground
Many switches claim to be 802.3af compliant – but are NOT
45. PoE Warning
A fully and completely 802.3af compliant PoE switch will
work fine:
PoE Switch – (Each Port)
PSU Circuit
Mains
Plug
L
N
E
People Counter
48V
24V
Tx
External PSU
Rx
L
+
+
-
Rx
0V
Mains
Plug
N
E
Tx
CAT5
Network
Cable
Gnd
Tx
Rx
0V
RS232
•
The switch correctly recognises a non PoE device and
no voltage is supplied from the switch
46. PoE Warning
A non 802.3af compliant PoE switch could incorrectly
detect the counter as a PoE device and supply 50V:
PoE Switch – (Each Port)
PSU Circuit
Mains
Plug
48V
24V
Tx
L
N
E
People Counter
Rx
+
-
-
0V
Tx
CAT5
Network
Cable
Power supplied incorrectly by switch
This will destroy the counter!
Mains
Plug
L
+
Rx
•
External PSU
Gnd
Tx
Rx
0V
RS232
N
E
47. PoE Warning
Even if PoE is manually disabled; a non 802.3af compliant
switch may have a grounded connection:
PoE Switch – (Each Port)
People Counter
48V
24V
PSU Circuit
Mains
Plug
L
N
E
Tx
External PSU
Rx
L
+
+
-
Rx
0V
Tx
CAT5
Network
Cable
Gnd
Tx
Rx
0V
RS232
Non Compliant Ground Reference!
•
Power supplied even with PoE Switched Off!
This will destroy the counter!
Mains
Plug
N
E
48. Irisys Power Injector Recommended
An Irisys Power Injector is fully isolated and will stop PoE
voltage:
PoE Switch – (Each Port)
48V
CAT5
Network
Cable
Power Injector –
(Each Port)
People Counter
24V
PSU Circuit
Mains
Plug
N
E
Tx
Rx
Rx
L
Tx
+
-
0V
CAT5
Network
Cable
Non Compliant Ground Reference
•
+
-
L
Tx
Rx
Gnd
N
E
Counter NOT Damaged
RS23
2
Irisys Power Injectors are recommended to prevent
damage from non compliant PoE switches
0V
49. PoE Warning
A fully and completely 802.3af compliant PoE switch will
work fine with Irisys counters.
•
•
Unfortunately there is no easy way to identify a non
compliant switch
A non compliant switch may blow the counter
immediately, or after a couple of hours
The only way to protect against a non compliant PoE
switch is to utilise an Irisys Power Injector
•
The input and output are fully isolated so PoE voltage
cannot go through, and on, to destroy the counter
50. Cable Connections
Power Injector (IWC3060) is intended to be installed in
the patch panel cabinet:
Structured cabling
100m (330ft) Max IP cable length
51. Cable Connections
Power Injectors have four ports and so can provide power
to up to four different locations:
100m (330ft) Max IP cable length
52. Battery Backup
Insert the included battery into the IP masters battery
holder:
•
•
•
Check correct polarity!
Battery is required for correct date and time during
power failures
(Not required on node units)
The battery may not be required, as long as the data
retrieval software time syncs at every data poll and also
reconciles any out of sequence data records
54. Wide Opening Networks
For wider doorways, a ‘Wide Opening Network’ must be
used.
W
H
To calculate the number of units required, the mounting
height graph is used again (Irisys document IPU40188).
55. Wide Opening Networks
To prevent people being missed, the field of view of all the
counters on a Wide Opening Network, must overlap:
As part of the configuration stage all units positions are
checked to verify that there is a sufficient overlap.
56. Mounting Height Graph (m)
The dotted line shows the maximum distance that counters
can be mounted to ensure the minimum amount of overlap:
60°
Lens
4.34m
4.33m
4.03m
4.04m
20°
Lens
Outdoor only
40°
Lens
2.1m
1.8m
2.17m
2.16m
1.85m
1.9m
4.34m
4.05m
57. Mounting Height Graph (inches)
The dotted line shows the maximum distance that counters
can be mounted to ensure the minimum amount of overlap:
60°
Lens
170”
170”
159”
20°
Lens
158”
Outdoor only
40°
Lens
81”
70”
85”
72”
85”
74”
171”
159”
58. Mounting Locations - Examples
Do NOT leave a gap or people will be missed:
Overhead View
Side View
59. Mounting Locations - Examples
Equally, do NOT position units too close with a very
large overlap, this could produce tracking errors and
possible over counting:
Overhead View
Side View
60. Mounting Locations - Examples
Units should be positioned no further apart than the
maximum separation (shown on mounting height
graph):
This ensures the required amount of overlap.
Overhead View
Side View
61. Mounting Locations - Examples
Units on a wide opening network must be positioned at
optimum distance from the door (as with single units):
FOV
½ FOV
Overhead View
62. Mounting Locations - Examples
Always point units into the store, and parallel to each
other:
Overhead View
63. Mounting Locations - Examples
The below example could probably be configured in
order to make it work, but is NOT recommended:
Overhead View
65. Mounting Locations - Examples
Although units can be positioned in any arrangement;
for ease of configuration it is recommended that the
master is located on the left (looking into the store!):
Master
Node
Overhead View
66. Mounting Locations - Examples
Wide opening networks can be up to five* units wide:
FOV
½ FOV
Master
Node
Overhead View
67. Dual View Wide Openings - Examples
The video view from a Dual View Unit has a
wider field of view than the thermal view:
Video
Thermal
Overhead View
68. Dual View Wide Openings - Examples
A Dual View unit must be positioned in the middle of a
three (max) counter Wide Opening Network:
Node
•
Master
Node
The Dual Views video view will see the equivalent
of both node views as well as its own.
Overhead View
69. Mounting Locations - Examples
If the door is fully open and is undercover, e.g. a shop
in a mall, the units can be positioned closer to the ‘lease
line’ if required:
Overhead View
Side View
Care should be taken to avoid
blocking any of the field of view.
70. Wide Opening Networks
Where a shop entrance is completely
open during trading hours - and in a
shopping mall - the ideal counter
position is just above, or as close as
possible, to the ‘lease line’:
‘lease line’
Front View
71. Mounting Locations - Examples
Units on a wide opening network can be positioned
anywhere within the field of view, if required.
Ceiling
Obstacle
Obstacles can be avoided in this way.
Overhead View
72. Mounting Locations - Examples
Units can also be positioned at different heights, if
required (for uneven or innovative ceilings!):
Overhead View
Side View
73. Wide Opening Networks
Wide Opening Networks don’t have to be installed in a
straight line. This example shows an installation around
two sides of a fully open store, in a shopping mall:
Side/Front View
74. Wide Opening Networks
In these types of examples, all units must point in the
same direction:
Overhead View
75. Wide Opening Networks
It doesn’t matter which direction they point, as long as
they’re all the same:
Overhead View
76. Mounting Locations - Examples
At wide entrances in busy malls, people can bunch
together and queue at the doors. Counters should be
installed as Corridor-like installations away from the
doors:
Install counters away
from the entrances to
the individual stores
if possible
Overhead View
77. Mounting Locations - Examples
If counting through - and around - places like malls,
always ensure that the counters are mounted away from
individual store entrances, wherever possible:
OK
Counters installed parallel to traffic flow
OK
Preferred
Overhead View
78. Wide Opening Networks
In corridors, do not position units too close together with
large overlaps:
Overhead View
Side View
81. Disjointed Wide Opening Networks
The normal use of a wide opening is to fully cover a wide
entrance which a single unit could not cover by itself:
But also a wide opening network can be utilised to cover
multiple doors which are close to each other, but not close
enough for units to overlap:
82. Disjointed Wide Opening Networks
The advantages:
•
•
•
•
Only one IP connection required
Simple cabling – star wiring to each doorway NOT
required
Up to eight units = up to eight doors covered
Count Logs from all doors covered are retrieved
from one master unit
Disadvantages:
•
•
The more doors covered, (potentially) the less
storage space available for count logging
If master goes down, all doors ‘go down’
83. Disjointed Wide Opening Networks
Ensure that the cable length from Master unit to last node
does not exceed 60m (200ft):
60m (200ft) max
85. Cable Connections
For
•
•
•
a wide opening network:
IP Master counter + additional nodes (max 4*)
Power can be via power terminal or power over CAT5
Network must be grounded
RJ45 Terminator must
be connected at last
counter position
Power to Nodes
supplied down
CAT5 patch cable
86. Cable Connections
Power Injector (IWC3060) wiring:
Structured cabling
60m (200ft)
Max CAN cable
length
100m (330ft) Max IP cable length
87. Cable Connections
Power for a wide opening network has some limitations:
Master Power
24V
Max No Of Units
Power via CAT5
(Power Injector)
15V
Power Supply
15V
4
24V
5
88. Cable Connections
Power for a wide opening network has some limitations:
Master Power
Power via
Terminal Block
Power Supply Max No Of Units
15V
6
24V
7
15V
24V
If more units required then network must be powered centrally:
24V
89. Cable Run for Dual View Wide Openings
The physical cable run for a wide opening, which is
using a Dual View unit situated in the middle, is as
below:
Node
Master
Node
Overhead View
91. Counter Configuration
Each counter must be configured with a number of
settings:
•
•
•
•
•
Usual configuration is via IP connection through an
Internet Browser
Browser must support Microsoft SilverLight add-on, e.g.
Internet Explorer
Setup Tool is served as web pages to Internet browser
All settings made are stored in counters Flash memory
(Alternative configuration is via serial)
92. IRISYS People Counter Setup Software
If connecting via IP:
•
•
•
•
•
Ensure laptop is on the same IP range as the IP master
IP Master default IP address is 192.168.0.10
Internet Explorer is preferred browser
Also compatible with Firefox, Safari & Google Chrome
Simply enter IP address in address bar:
93. IRISYS People Counter Setup Software
You will need to login to the counter.
Default Login Details are:
•
•
Username: admin
Password: installer
96. IRISYS People Counter Setup Software
Settings will be applied:
The redirect will most likely fail until you change your
laptop IP address to the same range as the counters new
IP address.
Reconnect to the counter.
97. IRISYS People Counter Setup Software
Ensure Client Connection Mode is enabled or disabled as
required:
99. IRISYS People Counter Setup Software
Then go into the Setup Tool to configure the counting
functionality:
•
•
Setup Tool requires the MS Silverlight add-on
Ensure you have it installed before you get to site!
100. IRISYS People Counter Setup Software
Silverlight will load:
…and it will connect to the counter:
101. IRISYS People Counter Setup Software
Firstly, the “Configuration Wizard” will run through:
•
The configuration Wizard is
run automatically at various
times during the setup process
to ensure the counter is
configured correctly
102. IRISYS People Counter Setup Software
Number of units will be reported:
Click Next
If units have never been configured
before (brand new) they must be
configured with valid IDs:
103. IRISYS People Counter Setup Software
The default Comms ID is 127:
•
•
•
•
Note the message “Find the
device with LEDs flashing”
Confirm that you are setting the
ID for the correct unit
When two or more units are
connected they will not
necessarily be displayed in the
order that they were installed
on the ceiling!
Enter a valid Comms ID of
between 1 and 120
104. IRISYS People Counter Setup Software
For simplicity, it is recommended that you always enter an
ID of 1 for a master unit and for node units use 2, 3, 4, etc.
•
•
Once you’ve entered a valid
Comms ID, click ‘Next’
As long as the IDs are all
unique the Changes will be
verified successfully:
105. IRISYS People Counter Setup Software
Number of units will be reported again:
Click ‘Next’
Then the new settings will be saved.
Again, click ‘Next’:
106. IRISYS People Counter Setup Software
Next you must specify the correct X and Y coordinates:
•
For a single unit 0,0 is valid
107. IRISYS People Counter Setup Software
Next you must specify the correct X and Y coordinates:
•
•
•
The default positions will be
identical for multiple brand new
units
The Wizard will therefore report
a problem
“Unit overlap may be excessive”
108. IRISYS People Counter Setup Software
Think of the units as being positioned on a grid:
Overhead View
109. IRISYS People Counter Setup Software
You then give each unit its X and Y coordinates on the
grid referencing from the master (measure accurately!):
0, 0
240, 0
Y
X
(cm)
Overhead View
110. Mounting Locations - Examples
Thinking back to the below example which would
probably work, but is NOT recommended....
Overhead View
111. Mounting Locations - Examples
If units are out of line with each other, be very careful
with measurements:
0, 0
270, 50
Y
X
Overhead View
112. IRISYS People Counter Setup Software
Then enter the X and Y coordinates, and the height, for
each unit:
•
Note the message “Find the device with LEDs flashing”
113. IRISYS People Counter Setup Software
Once everything is entered, click Finish:
Or
(Example)
114. IRISYS People Counter Setup Software
Be careful of any warnings, click ‘Previous’ if you
need to modify any settings:
(Units very close together)
(Units very far apart)
116. Disjointed Wide Opening Networks
When setting the X and Y values of units which have been
installed without an overlap, the values do not really
matter.
10m (33ft)
•
For ease of viewing on the
ground plane, X and Y
values can be set closer
than actual, if required:
5m (16ft)
117. Disjointed Wide Opening Networks
But do not set the X and Y values of units too close, as
there could potentially be some, false tracking of targets
between views:
10m (33ft)
118. IRISYS People Counter Setup Software
The higher the counter is mounted, the bigger field of view
will be provided (enter the height as accurately as
possible):
Size of
Field of
view at
2.5m
Size of
Field of
view at
4.5m
119. IRISYS People Counter Setup Software
You can change the mounting height and X, Y coordinates
at any time by clicking the ‘cog’ symbol:
For a single unit, the X and Y coordinates can be left as 0,0.
120. IRISYS People Counter Setup Software
People are counted when they are seen to cross the count
line.
The count lines should therefore be positioned for best
accuracy.
121. IRISYS People Counter Setup Software
With wide opening networks, a target should be tracked
correctly between counter field of views:
If a target is not tracked smoothly, between views, check
your height, X, and Y settings and measurements!
122. IRISYS People Counter Setup Software
Counters installed at different heights, will have different
sized field of views:
The counter at (0,0) is installed 3m high.
The counter at (300,0) is installed 4m high.
123. IRISYS People Counter Setup Software
Any units offset from each
other, will be positioned and
displayed offset on the
ground plane view:
(You will still
need to adjust
the count
lines)
124. Wide Opening Networks
Units that are not installed in a simple straight line must
have appropriate X and Y values configured in order to
reflect their true position:
125. Wide Opening Networks
The direction that the units are pointing on the ceiling
must be considered when configured X and Y coordinates
correctly:
=
126. Wide Opening Networks
In these types of examples, all units must point in the
same direction:
=
127. Wide Opening Networks
In these types of examples, all units must point in the
same direction:
=
129. Count Line Configuration
Correct placement of the count lines is the key to
accurate counting
•
•
It is the installers responsibility to position the count
lines correctly for the installed location
Extensive walk testing is advised!
Things to remember:
•
•
•
People must cross the count line in the correct direction
to register a valid count.
People do not have to cross both lines in order to
generate a count increment – both lines work
independently.
Four selectable count modes are available in order to
change the way the count increments are given.
130. Initialisation Requirements
•
•
Count lines must be positioned to allow a certain amount
of target ‘initialisation’.
At the point a target appears it is said to be initialised.
132. Initialisation Requirements
Here the ‘IN’
count line is too
close to the edge
of the field of view
This person was not
counted because he
was ‘initialised’ after
the count line
With the count lines
positioned further into
the field of view
people will be
initialised before
crossing the ‘IN’ line
133. Initialisation Requirements
Arranging the count lines in an arc around a door, is a
common configuration.
•
It allows sufficient
initialisation.
•
And, people who enter
and turn immediately
left or right will not be
missed.
134. Count Line Configuration - Examples
With security barriers at the entrance, count lines
should be positioned between them:
Overhead View
Side View
135. Count Line Configuration - Examples
If initialisation is tight; lines should be angled between
the ends of the security barriers:
Overhead View
Side View
136. Count Line Configuration - Examples
If doors can swing into the field of view, lines must be
positioned in an arc around them:
Overhead View
Side View
137. Count Line Configuration - Examples
This way the doors themselves can’t be counted, but
anyone who walks in and out will be:
Overhead View
Side View
138. Count Line Configuration - Examples
Do not leave a gap where people could be missed:
Overhead View
Side View
139. Count Line Configuration - Examples
If doors are automatic sliding type, ensure doors cannot
cross the ends of the lines as they slide open and closed:
Overhead View
Side View
140. Count Line Configuration - Examples
For units positioned closer to the lease line (under
cover shopping mall stores) position the lines along the
lease line, ensuring enough initialisation:
Overhead View
Side View
141. Count Line Configuration - Examples
With a shop in a mall entrance, the count lines can be
positioned along the lease line if required.
Remember that passing
traffic will not be
counted even if seen by
the counter.
Only people who cross
the count line will be
counted.
Overhead View
142. Count Line Configuration - Examples
Always position the count lines around the swing of the
door:
Overhead View
Side View
143. Count Line Configuration - Examples
Watch for the possibility of cross traffic. In this case this
person could generate an extra counts:
•
Position the count lines as
close to the door as possible
in order to reduce this
problem (but not at the
expense of initialisation)
•
You can also change the
count mode
Overhead View
144. Count Line Configuration - Examples
Count lines should be positioned from ‘wall to wall’ in a
corner installation:
Overhead View
Side View
145. Count Line Configuration - Examples
Count lines on a wide opening should be configured in a
similar to single units, but across all counter field of
views to encircle the door(s):
Overhead View
146. Count Line Configuration - Examples
Most Corridor-like installations can be configured with
simple straight lines through the centre of the field of
view:
•
•
This usually ensures that there is enough space for
initialisation in both directions
Also, anyone dithering on the count lines should not
generate more counts in one direction than the other
Overhead View
147. Count Line Configuration - Examples
Wide Opening Network installations are installed similar
to single units in corridors with lines through the centre
of the field of views:
Overhead View
148. Count Line Configuration - Examples
In ‘busy’ corridors where office furniture and other
objects can be interacted with, people may not walk
straight through the field of view without stopping.
•
In these cases careful line placement may be required
to avoid counting people who stop in the field of view
Overhead View
149. Count Line Configuration - Examples
In narrow corridors beware of thermal reflections from
the walls. These can generate extra counts if the count
lines are not positioned correctly:
•
Lines should be positioned across the floor only
•
Always bring the lines in from the edges
Front View
Overhead View
150. Count Line Configuration - Examples
For optimum counting through corridors, count lines
should be configured through the middle of the field of
views wherever possible:
Overhead View
151. Count Line Configuration - Examples
Always bring the lines in from the edges:
Overhead View
Side View
152. Count Line Configuration - Elevators
At Elevators, do not stretch count lines across multiple
views in order to count two or more elevators:
Overhead View
153. Count Line Configuration - Elevators
Configure separate IN and OUT lines for each Elevator.
Keep them as close to the door as possible in order to
avoid counting people walking past or waiting nearby:
Move count
lines further
out from the
door if people
exiting the
elevator are
not being
picked up in
time
Overhead View
154. Count Line Configuration - Escalators
Stay clear of the ‘landing zone’ at the top and bottom of
escalators:
•
Position count lines
around the landing zone
•
Always configure ‘UP’ &
‘DOWN’ lines in case
escalator direction is
reversed in future
156. Multiple Count Lines
Additional count lines can be added or count lines removed
at any time:
•
Just click the ‘Add Line’ button to add a line:
•
Click the red ‘X’ to remove a line:
157. Multiple Count Lines
New count lines added will be placed in the same place on
the ground plane view:
159. Multiple Count Lines
There can be between 1 and 8 count lines enabled at once:
•
•
Any count line which is enabled will be logged in flash
Because the amount of flash is finite, only enable the
required number of lines and remove those not in use
160. Flash Memory - Count Log Capacity
The length of time that the flash lasts before older entries
are overwritten depends on the number of lines enabled
and the logging interval:
•
•
Any count line which is enabled will be logged in flash
Only enable the required number of lines and remove
those not in use!
162. Other Settings
Clicking on the Menu/Irisys symbol button will bring up
further options:
Click on ‘Global’ settings.
163. Global Settings
Enter the relevant site details:
Ensure the Date/Time is Set to current date and time.
Click ‘Program’, then ‘Permanent’, before closing.
167. Discrimination Sensitivity
The Discrimination Sensitivity slider affects how
the counter interprets the thermal signature:
•
•
•
•
•
•
A single person is shown as a yellow target
A ‘couple’ is shown as a blue target
If single people are being seen as couples
(blue targets) lower the sensitivity slightly
If couples are being seen as single people
(yellow targets) raise the sensitivity slightly
At very low heights you may need to
lower the sensitivity to avoid over
counting
At very high heights you may need to
raise the sensitivity to avoid under
counting
169. Large Target Couple Counting
This option enables the blue targets. With
disabled, all targets will be yellow and counted
as one only.
•
•
•
•
Normally this option should be left enabled to
allow for the possibility of people walking very
close to each other and getting the correct
count of two
Use the Discrimination Sensitivity slider to
adjust this behaviour
If over counting is proving to be an issue
this option can be disabled
Disable if supermarket shopping carts are
being counted, for example
171. Extended Grouping Mode
This option is provided to give more control of the
internal grouping of targets seen by the counter.
•
•
•
•
•
•
Normally this option should be left disabled
Enabling this option will mean that more targets will
be joined together and counted as one
Even targets very far apart will be joined together and
counted as one
Re-adjust the Discrimination Sensitivity slider to affect
this behaviour
Enable if supermarket shopping carts are
being still being counted, for example
Enable to provide a basic ‘shopping unit’
count – all people entering together will
be counted as one only
173. Count Mode Setting
Set the correct count mode.
It is the installer’s responsibility to
select the appropriate counting mode
based on:
•
•
•
•
The Count Line configuration
The behaviour of people
What you want to count
What you don’t want to count
(In most cases the default ‘Deferred’ count mode will be
the recommended count mode)
174. Count Modes - Immediate
When Immediate Count Mode is selected, the first count
increment is given at the time of line crossing
•
•
Anti Dither enabled – only first crossing counted
Anti Dither Disabled – all line crossings counted
X
Anti Dither Enable
Anti Dither Disabled
10
10
X
X
10
11
X
X
X
10
21
175. Count Modes - Deferred
When Deferred count mode is selected, count increments
are only given when the target leaves the field of view
•
•
Each target can only be counted a maximum of once per
count line
Count U-Turns option affects targets which cross both
lines
X
X
X X
Count U-Turns Enabled
Count U-Turns Disabled
10
10
11
00
10
10
176. Count Modes - Deferred
With Count U-Turns Disabled, cross traffic can be ignored.
•
Lines must be
positioned so that
cross walkers will
always cross one line
then the other
Count U-Turns Disabled
•
00
00
00
Recommended Count Mode for majority of installations
178. Deferred Initialisation
Deferred Initialisation should be left disabled in most
cases:
•
•
•
When enabled it adds more checks
to a thermal signal before it is
initialised as a valid target
This means initialisation takes
much longer
This is to help prevent ‘Ghost
targets’
179. Deferred Initialisation
Ghost targets are targets seen on the ground plane
when no actual person is walking underneath a counter
They are caused by rapid temperature change
of the floor immediately below a counter
An example situation where ghost targets may
be seen is here:
•
•
The sun shines through
a glass entrance and
makes the floor very hot
...
Side View
180. Deferred Initialisation
•
•
•
When the doors open, wind blows in through the
opening and rapidly cools down the floor
This cooling action moves through the field of
view which the counter will detect as a person
Ghost targets move in a random meandering
pattern
Overhead View
Side View
181. Deferred Initialisation
Because Ghost targets move differently to targets from
genuine people they can be recognized by the counter.
This is done with extra target checks before initialising.
Because of initialisation takes longer with deferred
initialisation, it should not be enabled by default.
•
•
Deferred initialisation should only
be enabled when genuine ghost
targets have been confirmed or
strongly suspected
Count lines will also need to be
modified to accommodate longer
initialisation requirements on
genuine targets
Overhead View
183. Path Map Data
Now Display Path map Data:
•
•
You should see the paths that
people have been walking through
the field of view
If working underneath the counter,
path maps will be mixed up (below
right), so select ‘Reset Path
Mapping’
184. Path Map Data
The path map function allows line placements to be
verified:
•
•
Lines should not be positioned in ‘initialisation areas’
(light blue areas)
Lines should stretch across ‘well trodden paths’
(darkest blue) to ensure people aren’t being missed
185. The last things to do
From the main menu select ‘Permanent All’
•
•
This saves all settings into the counters Flash memory
THIS IS EXTREMELY IMPORTANT!
186. The last things to do
From the main menu select ‘Backup/Restore’, and then
‘Backup’
•
Save the settings into a file on your laptop.
188. Counter Configuration
Alternate method of connection is via serial lead
• USB adapter is also provided with serial cable
• Installer must run executable version of setup tool
• Executable version will also connect via IP if required
• If you do not know the IP address of the counter, or the
password, you must configure via serial
189. IRISYS People Counter Setup Software
Connection to the counter can be via Serial or IP:
•
Connect the serial lead to the counter and choose the
correct COM port
190. IRISYS People Counter Setup Software
Serial version of the setup tool is identical to the setup tool
via IP
•
Only difference is additional ‘IP config’ option on main
menu
191. IRISYS People Counter Setup Software
This is the only way to recover from a forgotten IP address
or forgotten (changed) password:
•
Note: you cannot configure DNS settings via serial
With a covered mall shop entrance there will be no reflected temperatures from the sky and you can afford to mount the counter closer. This can make it easier to configure the count lines later (see later slides). In these environments it may be that the ideal mounting position is directly above the lease line (assuming that the height is ok).
For a door situated against a wall in this way, the counter should be positioned away from the wall. This then maximises the amount of field of view available, thereby giving better initialisation and more options for placing the count lines.
If you exceed the maximum mounting height, severe under counting could result.
If you exceed the maximum mounting height, severe under counting could result.
If you drop below the minimum mounting height, severe over counting could result.
Always try to get close to the optimum height if you can. Even raising the counter by as little as 10cm will help a lot.
If people stop in the field of view the counter will lose them after a period of time (5-10 seconds). When they move again they will be picked up as a new target. This can cause count inaccuracies, if people are not initialised again in time after a stopping moment. Or people can be counted again and again if continually stopping and then moving over the count line(s).
If you exceed the maximum mounting height, severe under counting could result.
If you exceed the maximum mounting height, severe under counting could result.
If you exceed the maximum mounting height, severe under counting could result.
If you exceed the maximum mounting height, severe under counting could result.
If you exceed the maximum mounting height, severe under counting could result.
If you exceed the maximum mounting height, severe under counting could result.
Always configure the correct X and Y positions so that tracking will function correctly between units.
This is why the height setting must be entered accurately. The counter needs to know how high it is installed so that it knows how big the field of view will be and therefore how big targets will be. It can then correctly identify couples and singles, etc.
Note setting this value higher does not increase the size of the field of view. This is fixed based on the actual height – why the counter needs to know.
For a single unit the X and Y coordinates don’t make much of a difference as they are really required when configuring two or more units on a wide opening network. See later slides.
The Height setting must ALWAYS be entered, and accurately.
For this functionality to work correctly you must accurately enter the height and X,Y values. If any values are incorrect then the tracking between units won’t work correctly and individual people could be counted more than once (depending on their walking patterns).
The four count modes are explained later on in the presentation.
The three examples show different initialisation times. The longest time is shown on the right - this is a particularly bad example of initialisation time, shown for demonstration purposes, and you would typically expect targets to be initialised sooner than this.
Positioning the count lines too close to the edge of the field of view will invariably lead to under counting due to targets being initialised after the count line. In practise this may well manifest itself with OUT counts being a lot more than IN counts, for example.
This is a recognized count line configuration which works accurately in the majority cases. It allows for initialisation before reaching the line and also makes sure people have to cross the count line – they cannot miss the count line at all.
This provides enough initialisation on the way in, and more than enough on the way out.
This provides enough initialisation on the way in, and more than enough on the way out.
With a covered mall shop entrance there will be no reflected temperatures from the sky and you can afford to mount the counter closer. This can make it easier to configure the count lines later (see later slides). In these environments it may be that the ideal mounting position is directly above the lease line (assuming that the height is ok).
This is very important which some people do not realise is the case. Anyone can walk through the field of view, but only those people who cross the count line(s) will be actually be counted.
This walking behaviour can be disregarded by selecting the right count mode, see later slides.
For a door situated against a wall in this way, the counter should be positioned away from the wall. This then maximises the amount of field of view available, thereby giving better initialisation and more options for placing the count lines.
If you exceed the maximum mounting height, severe under counting could result.
If you exceed the maximum mounting height, severe under counting could result.
If you exceed the maximum mounting height, severe under counting could result.