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An Introduction to BUILDINGS ICT

This presentation by Jack Wang, ICT Engineer, covers the fundamentals of Buildings ICT and the importance of coordination with ICT in building projects. It highlights the concept of smart consulting and focuses on communication and electronic security in buildings. The presentation also includes an overview of a basic structured cabling system and different communication network architectures.

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An Introduction to BUILDINGS ICT

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Presentation Transcript

  1. An Introduction to BUILDINGS ICT By Jack Wang ICT Engineer – Auckland Building Services

  2. Aim of Presentation • Introduce Smart Consulting • To cover the fundamentals of Buildings ICT and the key sub-specializations within the subject • Communication • Electronic Security • Audio Visual • Importance of coordination with ICT

  3. Being a Good Buildings ICT Consultant • Have the technical knowledge and communication skill • Keep up to date with technology • Being able to decode clients’ requirements and make fit-for-purpose recommendations based on knowledge of technical systems and client’s business operation, while being aware of budget and other constraints • Understand building operations and coordinate well with architects

  4. Unfortunate Current Practice • Often Buildings ICT systems are either being forgotten or remembered last minute in projects. Yet those are key systems to our Clients. • Coordination issues arise late in projects and leaves little time for ICT engineers to come up with fixes • ICT is only deemed important when things don’t work • The aim of this presentation is to identify issues and rise awareness

  5. Smart Consulting • Smart consulting is based on actively seeking opportunities to enhance either peoples living or business improvement primarily using technology • In terms of buildings, focus is placed on finding means of using building information to create a more efficient and improved user environment • The nature of ICT work focuses more on understanding stakeholder requirements (there could be multiple solutions) and it’s a part of our daily routines

  6. Smart Consulting • ICT plays a critical part and provides the backbone to enable a more integrated building structure for information to be exchanged and better utilized • Today, the pace of change is rapid and so is the way we communicate and adopt new technologies – Consumer market driven. • Becamust keep up and identify a holistic framework to share information in order to move towards more integrated design to stay market competitive

  7. Communications • A structured cabling system is a collective configuration of cabling on a premise (pathway to patch panel), that, when installed, provides the network infrastructure for related hardware and terminal devices • Why is structured cabling important? • Because almost every device needs network connectivity • Clients has strong emphasis on ICT and expects considerably more than Beca internally

  8. Communications • A good structured cabling solution ensures future proofing, un-interruptibility and interoperability • The cabling system include connectors, patch panels, racks, cables, patch leads and other connectivity devices

  9. Communications A Basic Structured Cabling System

  10. Communications System Breakdown • Functional Elements: • Campus Distributor (CD) • Building Distributor (BD) • Floor Distributor (FD) • Consolidation Point (CP) • Telecommunication Outlet (TO) • Groups of these elements above are cross/inter-connected to form cabling systems/subsystems

  11. Communications System Breakdown • CD – Distributor from which the campus backbone starts; servicing premise containing one or more buildings • BD – Distributor in which the building back bone terminates and at which connections to the campus backbone(s) can be made • FD – Distributor used to connect between horizontal cable and other cabling subsystems/equipment • CP – A passive interconnect device commonly used to introduce flexibility of relocating TOs • TO – A terminated & tested outlet servicing telecommunication device(s)

  12. Communications A Basic Structured Cabling System

  13. Communications Network Architectures 1. CCA (Centralised Cabling Architecture) – Commonly used for small customer premises – Centralised cross connect/electronics – Example: GPON Architecture differ based on where the electronics & TOs locate Advantages: – Less administration effort & cost – Fewer points of failure Disadvantages: – High cost of centralised electronics – Single point of failure

  14. Communications 1. CCA (Centralised Cabling Architecture)

  15. Communications Network Architectures 2. DCA (Distributed Cabling Architecture) – Common architecture; ideal for large establishments and multi- building campuses – Distributed electronics Advantages: – Fewer cable count backbones – More robust & reliable (with redundant links & UPS(s)) Disadvantages: – More administration effort & cost – More spatial requirements

  16. Communications 2. DCA (Distributed Cabling Architecture)

  17. Communications Common Cabling Media • Optical Fibre – A flexible fibre with a glass core through which light travels with minimal loss • Characteristic – Best EMI performance – Longest cabling distance/coverage – Best bandwidth – Best long term operating expense

  18. Communications Common Cabling Media • Optical Fibre

  19. Communications Common Cabling Media • Unshielded Balanced Twisted Pairs – Copper cable; commonly installed in open plan commercial offices where EMI isn’t expected to exceed allowable limits – Minimises cross-talk & EMI (by decreasing mutual inductance coupling & capacitance unbalances between pairs) • Characteristic – Good EMI performance – Good cabling distance/coverage – Good bandwidth – Good long term operating expense

  20. Communications Common Cabling Media • Unshielded Balanced Twisted Pairs

  21. Communications Common Cabling Media • Shielded Balanced Twisted Pairs – Copper cable most commonly installed in plant spaces / industrial applications – Minimises cross-talk & EMI • Characteristic – Better EMI performance – Good cabling distance/coverage – Better bandwidth – Better long term operating expense

  22. Communications Common Cabling Media • Shielded Balanced Twisted Pairs

  23. Communications Common Cabling Media

  24. Communications Power Over Ethernet • It’s a cabling solution transferring power and signal over the same line • More devices are now POE and more device are expected to be POE

  25. Communications Questions?

  26. Security • Why is Security Important: • Prevent loss of property • Protect intellectual property • Identify criminal activity • Intrusion Detection • H&S and improving building operations

  27. Security • Access Control • Refers to the practice of controlling access to a building / selected premise • In the early days, access control was achieved using means of material, mechanical elements & guards • Now, mechanical & electronic devices are used to deny unauthorised access • It’s critical to protect valuable information & asset management

  28. Security • Access Control • Devices used vary from physical keys & locks to electronic systems capable of recognizing biographical and biometric data of users • Now, the most common form of access control is through the presentation of card(s) with encoded info to a reader with predetermined decision making data • Access cards can also serve other functions: • Follow me printing • Payment for transportation etc. • Lift controls

  29. Security • Access Control • Other non-card form access control option include: • RFID tags – identifies/tracks objects • Biometric Systems – recognize part of a person • Mobile Phones • The variety of options gives the designer ways to control access to more sensitive spaces

  30. Security • Basic Elements of an Access Control System Door Release Electronic Lock Emergency Push Button Reader

  31. Security • Video Surveillance • A self contained circuit carrying video signals connecting sources to recorders, control systems and monitors • The purpose is to capture footage and monitor an area where security can be at risk • Video based security mitigates criminal activities and helps protect assets • Video security also allows event back track and missing items / people to be identified etc. Functions goes on… • Footages have to be useable in court

  32. Security • Camera Selection • The operational requirement of cameras can be one of 3 classes: • Detection - provide sufficient detail to enable identity of an individual to be established • Recognition • provides a relatively high degree of certainty for an individual seen before to be identified • Identification - provides detail to determine a person’s presence with a high degree of certainty • Many more criteria’s need to be considered for camera selection

  33. Security • Camera View • Detection • Identification • Recognition

  34. Security • Most Common Types of Cameras • Dome • PTZ • 360 Degrees • Vandal-Resistant • IR Day/Night Camera

  35. Security • Video Analytics: • People counting • Facial recognition • Data analysis and trend identification etc. https://www.youtube.com/watch?v=EayolWoOWvQ

  36. Security • Many more items belong to security • Intercom systems • Intruder alarm • Duress alarm • PIRs etc.

  37. Security cont. Questions?

  38. AV Services • Why are AV Systems Important? • Comms & Sec are more passive and behind the scenes disciplines • People notice AV more as it’s a direct user experience (like using a mobile phone) • Difficult to work with poor audio and visuals • Good AV ensure friendly environment for entertainment, work, function etc. • AV makes groups of people work / share / collaborate / entertain better

  39. AV Services • A Practical AV Design Exercise - Problem

  40. AV Services • A Practical AV Design Exercise - Solution • (Black Box)

  41. AV Services • Basic Rule of Thumbs: • Select the reasonable panel size • Viewing docs - panel height to distance ratio = 1:4 (apx.) • Viewing TV / films - panel height to distance ratio = 1:6 (apx.) • Select appropriate equipment and engineer good acoustics • Consider the viewing angle of audiences • Tiered structured seats? Other alternatives? Relay Monitors? • Easy to navigate user interface

  42. AV Services • AV Engineering/Design Considerations • Determine means of AV signal transmission • Structured Cabling/ COAX. etc. • Determine the equipment to be used • AV Controller • Amplifiers • Speakers/Subs • Find Displays & Sizes • Determine zones & the type of circuiting required

  43. AV Services • EASE Modelling – Enhanced Acoustic Simulator for Engineers • Balanced & evenly distributed sound pressure

  44. AV cont. Questions?

  45. Common Coordination Issues • The required cooling not supplied • Power / UPS requirement not met • Uncoordinated fire egress, gas suppression and dry sprinkler piping • Uncoordinated network connectivity requirements • Uncoordinated & misplaced equipment • Uncoordinated access control with architectural door hardware • Items above produce poor results for clients (with dysfunctional and non-compliant systems)

  46. Coordination requirements • ICT engineers should be included early in projects to identify the required ventilation, electrical, fire and lift requirements etc. • Better communication • Change notice need to propagate to ICT engineers

  47. A Practical Example of Coordination ANZ Triangle Centre (Christchurch) Comms Room Services Coordination - Nicolas Brisson

  48. Thank You Auckland Buildings ICT Team Raymond (Team Lead) Nicolas Jack Luc Mike Graham (Comms Sec) (Comms Sec AV) (Comms) (AV) (Comms Sec)

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