State-wide Communications System for Law Enforcement and Public Safety
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Transcript of State-wide Communications System for Law Enforcement and Public Safety
State-wide Communications System for Law Enforcement
and Public Safety
State-wide Communications System for Law Enforcement
and Public Safety
“Moving Ahead” Dan Brown, Project Director
Overview: This site visit is designed to share the strategic project plan and begin the development of a strategic implementation and operations plan around wireless interoperability. This is an iterative process that
will take place over the course of next few months.
There are four main goals :» Communicate the state objectives for the project.
» Define the problems of wireless interoperability with respect to this project with respect to the users group.
» Prioritize key local issues and collect approval.» Prepare for design and production using a
site survey tool.
Definition Interoperability is the ability of public safety service and
support providers to communicate with each other via voice and/or data:
On demand
In real time
When needed
When authorized
The System…How It Works
GatewayInterconnect
Device
Trunking Systems
Non TrunkingSystems
Overview
Trunking Users Trunking Users Non Trunking Users
$300 Million
UASI System
C obb
D ekalb
Palm e tto
Be n Hill
Stone Mtn
2 Peachtree
Rosw e ll High
T1
T1
T1
T1
T1
T1Cobb E911 Ctr
REMOTE SITES
PRIME SITE
Fulton
Morgan Falls
Project DescriptionPhase One
Inter-operational Communications 800 MHz P25 Compliant Simulcast Five Channel Digital Overlay Sites - Six Remotes, One Prime, One
Master $9.5 M – ODP Funded Owned and Operated by Consortium –
COA, DC, FC, CC, State
LETPP Solution Interoperable Communications System that
when implemented: Uses existing Radio Frequency infrastructure Achieves “on demand” interoperability through
overlay additions to the current RF infrastructure: IP network backbone, IP network components and Mobile Communication Units
Provides flexibility and scalability Achieves functionality in area covering 75% of state
population with fixed communications assets; functionality in remaining 25% with mobile communication assets
Can be implemented within $8M budget Can be completed within two year time frame Can be managed effectively with three working
groups: Task Force Requirements Analysis Group, Technical Working Group, Operations Working Group
NGA Workshop
Benefits
Gateway/Model for True Interop Solutions Enhance Public Safety Force Multiplier Includes Level Cooperation Facilitates National Response Plan Accomplishes Thirty Plus Year Goal Protects Emergency Responders Phase Two
What Project Will Not Do
Increase Radio Frequency Coverage Increase Channel Capacity Allow Radio of One Type to
Communicate with Transmitter of Different Type
Eliminate Technology Obsolescence
Key Evaluation Areas
MPLS Network 80/20 Spectrum Availability Intergovernmental
Agreements End User \ Transition Statewide vs State Owned Open Standards
Value Proposition for System
Local Law Enforcement Interoperable communications for law enforcement and other first
responders at local level Interoperability with neighboring agencies with overlapping radio
frequency coverage Dispatch back-up capability with other agencies for continuity of
operations Dispatch conferencing with other departments and agencies Interoperable communications statewide in major events
State Agencies Centralized broadcast, remote monitoring statewide in major event
situations Selective dispatch center conferencing statewide Dispatch consolidation
All Participate in first statewide interoperable communications project Help create a model for future state wide interoperable communication
projects involving multiple local and state government agencies Project mostly funded by federal money for first two years
Success
On time On budget Achieved Interoperability by Project
Design. Satisfied constituents
Administrative Model
Te ch n ica l W o rk in g G ro u pR ep r es en ta tiv es f r o m G T R I ,
G T A, tec h n ic a l r ep r es en ta tiv esf r o m ag en c ies , p ar t ic u la r ly r ad io
an d I T p er s o n n el.
O pe ra t io n a l W o rk in g G ro u pR ep r es en ta tiv es f r o m G S P ,
9 - 1 - 1 , G E M A, o th ero p er a tio n a l/d is p a tc h
r ep r es en ta t iv es .
Ta s k Fo rce R e qu ire m e n ts a n dA n a ly s is G ro u p
(TFR A G )R ep r es en ta tiv es f r o m : S h er if f s ( 2 ) ,
P o lic e ( 2 ) , 9 - 1 - 1 , F ir e , E M S ,G E M A, G S P , G BI , G T R I , G T A
L e g a lA dv is o rs
Coverage Map Expanded
Ap p ling
Atk in son
Ba con
Ba ke r
Ba ldwin
Ba nks
Ba rrow
Ba rtow
Be n Hill
Be rr ie n
Bib b
Ble ckle y
Bra n tle y
Bro oks
Brya n
Bu llo ch
Bu rke
Bu tts
C a lh ou n
C a mde n
C a n d le r
C a rro ll
C a too sa
C h a rle to n
C h a th am
C h a ta ho oche e
C h a tto og a
C h e roke e
C la rke
C lay
C layto n
C lin ch
C o b b
C o ffee
C o lq u itt
C o lu mb ia
C o o k
C o we ta
C rawfo rd
C risp
D a d e
D a wso n
D e ca tu r
D e Ka lb
D o d geD o o ly
D o u gh e rty
D o u g la s
Ea rly
Ech o ls
Effing ha m
Elb e rt
Eman ue l
Eva ns
F a nn in
F a ye tte
F lo yd F o rsyth
F ra nklin
F u lton
G ilme r
G la scock
G lyn n
G ordo n
G ra dy
G re en e
G win ne tt
Ha be rsha m
Ha ll
Ha nco ck
Ha ra lson
Ha rr is
Ha rt
He a rd
He n ry
Ho uston
Irwin
Jackso n
Jasp e r
Je ffD a vis
Je ffe rson
Jen kin s
Joh nso n
Jon esL amar
L an ie r
L au ren s
L ee L ibe rty
L inco ln
L on g
L own de s
L umpkin
McD u ffie
McIn tosh
Macon
Mad iso n
Marion
Meriwe th e r
Mille r Mitch e ll
Mon ro e
Mon tgo mery
Morga n
Murray
Muscog ee
Ne wto n
O co ne eO g le th o rp ePa u ld in g
Pe ach
Picken s
Pie rce
Pike
Po lk
Pu lask i
Pu tn am
Q u itma n
R a b un
R a n do lph
R ichmo nd
R o ckd a le
Sch ley
Scre ven
Se mino le
Sp a ld in g
Step he ns
Stewa rt Su mte r
T a lbo t
T a lia fe rro
T a ttn a ll
T a ylo r
T e lfa ir
T e rre ll
T h omas
T ift
T o ombs
T o wns
T re u tle n
T ro up
T u rne r
T wig gs
Un ion
Up son
W a lke r
W a lto n
W are
W arren
W ash in g to n
W ayn e
W eb ste rW he e le r
W h ite
W h itfie ld
W ilcox
W ilkes
W ilk inso n
W orth
F ixe d Asse t C o ve rag ePh ase I
F ixe d Asse t C o ve rag ePh ase II
An cilla ry C ove ra ge
Mob ile Asse t C ove ra ge
Local Governments’
Responsibilities
Provide Own Radios for Gateway Units Obtain Necessary Signatures on MOAs Facility Upgrades Support Training and Exercise Programs Develop and Support System Operational
Procedures
State Responsibilities
Provide Legal and Procurement Assistance
Secured Funding for Project Success Coordinate Leadership in Establishing
System Operational Procedures Provide Central Fleet Management and
Maintenance - GSP (administration) Facilitate Leadership in Overall Project
Management
Project Time Lines Project Start – 2/14/05 RFQC Release – 4/01/05 TFRAG Approval of RFP Vendors & PSAPs -5/2/05 RFP Release – 5/16/05 RFP Technical Evaluation Complete – 7/20/05 RFP Price and Final Evaluation Complete – 7/29/05 Vendor Recommendations to TFRAG – 8/12/05 Vender Selected/Contract Negotiated– 9/13/05 Vendor Identification of Project Team & Background
Check – 9/15/05 Pilot (Cobb & Core) – 11/22/05 Pilot (Floyd, Glynn, Muscogee, Core) – 12/9/05 MCU Delivery – 12/08/05 Pilot Complete – 2/8/06 Production Deployment Start – 4/17/06 Production Complete – 3/30/07
Project Time Lines
GSP (Core – Primary) 11/18 – 22
Glynn (Core – Secondary) 11/23 – 29
Cobb (PSAP) 11/10 - 16
Floyd (PSAP) 12/2 - 6
Glynn (PSAP) 11/29 – 12/1
Muscogee (PSAP) 12/7 - 9
Mobile Communications Unit (MCU) 1/9
Motorola SRC 11/1
Procurement PhaseProcurement Phase
Feasibility Analysis – Technical/FinancialRFQC Development/EvaluationRFP Development/EvaluationContract Negotiation
RFQC - Completed RFQC Released – 4/1/05 RFQCs Received – 4/29/05 RFQCs Reviewed - 5/2/05 Responders (x – qualified technically for RFP)
ARINC - x AAR-ATICS Alcatel IIS Motorola - x Raytheon - x SyTech Tyco/MA-COM - x Unisys - x
RFP Completed Requirements Submitted – 4/21/05 RFP First Review – 4/27/05 Draft RFP Complete – 5/5/05 Evaluation Tool Complete – 6/06/05 RFP Release – 5/16/05 Offerors’ Conference – 5/19/05 RFP Proposals Due – 6/20/05 Technical Evaluation Complete – 7/20/05 Price and Final Evaluation Complete –
7/29/05 Notify Successful Offeror – 8/12/05 Start Negotiations – 8/15/05 End Negotiations – 9/13/05
MOTOBRIDGETM
IP Interoperable Solution
Interoperability Techniques
Fit Method
Swap Radios
Talkaround
Mutual Aid ChannelsSimple
Short-Term Solutions
Gateway(Console Patch)
System-Specific Roaming
Standards-Based Shared Systems
Short-TermSystem Modification
Best Long-TermSolution
Full-featured, Wide Area
Easily deployed
Time-consuming
MOTOBridge Technology
SIP Server
System ASystem B
OMC Server
MPLS
Dispatch911 Dispatch
VHF
800 MHz
UHF
RGU
RGU
WSGU
WSGU
VHF
MCU
PSAP Layout
Interoperability Techniques
Short-Term SolutionsMutual Aid Repeater System
800 MHz
Repeater
Talkaround Swap Radios
Level 4: Gateway - Console Patch
• A console that connects two networks
• Variable connection usually by audio only links
• Requires operator intervention per incident
Audio Only Audio Only
800 MHz System450 MHz System
Level 4: RF Gateways• Linking two networks via RF links
• Variety of technologies and approaches
• Usually requires operator intervention
800 MHz System800 MHz SystemField
Deployed Gateway
Gateway in Vehicle
Level 4: Gateway -Interface Box
• Hardware component connects two or more networks
• RF, 4-wire audio links, VoIP connect systems• Across a Region or the State
800 MHz System800 MHz System
Gateway
• Audio• System data• Emergency ID• Control info
• Audio Only
Soft Switched Radio Network
• Command and Control Tool
• SSRN originally designed for military air traffic dispatch
• Mobile Radio, Consoles and Telephony interfaces
• All Internet Protocol (IP) from Dispatch position to base sites
• Remote radio control
• Interoperability continues even with the loss of the Operations Management Terminal
SSRN provides Interoperability betweenvarious communications
networks with a Radio over IP SystemDesigned for Mission Critical Environments
Soft Switched Radio
Extremely scalable - local to statewide communication systems
• Unlimited Base Stations / Radios
• Unlimited Dispatch Positions
• Any dispatcher can operate any base station in the system, anywhere, anytime
Multi-System Inter Operation
• Frequency Band independent
• Multi-vendor base stations
• Create virtually any combination of dispatch network/control/priority
• Capable of Secure links (3DES, IPSec, etc.)
Standards Based Technology
• IP technology offers flexible network implementation
• Commercial Off the Shelf (COTS) Hardware
• Robust performance and high reliability
• Secure links (AES, IP-Sec)
Command and Control Capability
• Conference Bridge, Dispatch and Advanced Calling Features
• Complete remote control of gateway mobile radios
Scalable
• Provides IP interoperability between disparate communications systems
• Statewide and regional interoperability
Motorola SSRN Advantages
SSRN Advantages
DispatchWorkstation
DispatchWorkstation
IP NETWORK
IP NETWORK
RGU
RGU
RGU
Access RadioVHF
VHF
Analog
NextelSouthern Linc
RGUAccess Radio Florida
Mutual Aid
OrlandoMutual
Aid
FloridaMutual Aid
System
Access Radio800 MHz
Metro800 MHz System
800 MHz
RGU
Police Radio
GeorgiaSystem
county
Radio Gateway Unit Interfaces
Georgia MPLS IP Network
Georgia MPLS IP Network
CEB
BIM
4W+Tone Remote Control
4W+E&M/Tone Remote ControlSerial RS232 (Enables Radio controls, Emergency Notification and Wireless Data)
StationStation
R-GU
Trunked
Conventional
PSTN
Consolette
1 to 8 interface Connections per RGU
Cell
LMR System
IP-BackboneIP-Backbone
Use of AES Encryption in MOTOBRIDGE Network
•R-GU provides Encryption Over-the-Network
•End-to-End Encryption occurs with encrypted radios
R-GU
WS-GU
Encrypted or Clear Audio
Applies AES Algorithm
Dispatch Location
CORE APPLICATIONS
FOR USE
Radio Gateway
OMCServer
SIPServer
DispatchWorkstation
Operations ManagementLocation
DispatchWorkstation
DispatchWorkstation
Dispatch Only Location
Customer IP NetworkCustomer IP Network
Other Remote Radio Locations
Vendor BSystem
Vendor ASystem
Access Radio
Access Radio
• Scalable, up to Large Regional Network • Multi-Jurisdictional Interoperability• Command and Control Tool
Audio Only
Audio, ID, Emergency PTT, etc.
Gateway
800 MHz System B
800 MHz System A
Gateway provides interoperability here
Gateway does not provide interoperability
here
Core ApplicationsCore Applications
System BSystem A
Large Scale Events
Core ApplicationsCore Applications
System BSystem A
System C System D
GEMA
Centralized Broadcast
Core ApplicationsCore Applications
System C
Traveling Across Jurisdictions
System BSystem A
Core ApplicationsCore Applications
System BSystem A
System C
Mobile Platform
Core ApplicationsCore Applications
System BSystem A
Dispatch Consolidation/Backup
Core ApplicationsCore ApplicationsDispatch Conferencing
Core ApplicationsCore Applications
System BSystem A
System C System D
GSP
Remote Monitoring
Remote
Dispatc
h
Module
Remote
Radio
Module
Tool Bar
Speaker Master
volume
Conference
ModuleList of
conferences
in the
system
Notification
Window
List of radio
patches in
the system
Menu
Title:
WS-GU Name,
User
(Dispatcher)
Name and WS-
GU IP
Status Bar
PTT
button
Create Radio Patch connection• Right mouse click on existing radio
module and press “Connect To Radio”
-------- Or --------
• From Tool Bar Add Radio Add Dispatch
Remote Radio Module
• Radio Name
• PSAP Name
• Radio Type / Notifications
• Remote Radio State• Radio transmitted audio is connected
• Radio received audio is connected
• Radio Audio is disconnected
• Radio is disconnected
• Other user takes PTT
• Local Radio State:– Speak(transmitted audio),
Listen(received audio), Hold(audio is disconnected)
• Radio Volume
• Replay last 10 - 60 seconds of received audio
Radio
Name
Local
Radio
State
Remote
Radio
State
Volume
Replay Audio
History
Radio Type/
Notification
s
PSAP
Name
Virtual Remote Radio Control Head – IDEN
•Display Radio monitor notifications
•Private/Group Call
•Alert
•Reset
•Stop last command
Remote Dispatch (Intercom) Module
• Dispatch Name
• PSAP Name
• Remote Dispatcher State• Received and transmitted audio is
connected
• Received audio is connected
• Dispatch Audio is disconnected
• Dispatch is offline/disconnected
• Local Dispatcher State:– Speak(received and transmitted
audio), Listen(received audio ), Hold(audio is disconnected)
• Dispatch Volume
• Replay last 10 - 60 seconds of received audio
Local
Dispatch
State
Dispatch Name Remote
Dispatcher
State
Volume
Replay Audio
History
PSAPName
• Click on
Conference
Name
Dispatch
resources
Phone
resources
Create conference
Conference Module
• Conference Name
• Conference bridge name
• Conference remote members(except for SIP members) and their states:
• Received and transmitted audio is connected
• Received audio is connected
• Audio is disconnected
• Volume
• Local Conference state:
– Speak(Received and transmitted
audio), Listen(Received audio), Hold(Audio is disconnected)
Conference
NameBridge Name
Conference
MembersVolume
Local
Conference
State
Notification Window
Notification windowNotification window shows
system notifications and timestamp
Three types of notifications
•Fatal
•Warning
• Information
Backbone Network
Multi-Protocol Label Switching (MPLS) will be the technology in the backbone. Network provided by BellSouth and
administered by GTA Circuit parameters:
1.5 Mbps Premium Real-Time Quality of Service (QoS)
MPLS is designed for high speeds and high availability.
Mobile Communications Units
Two Mobile Communications Units (MCU) will be part of the system Motorola SMS-4000 Equipped with 2 of each of the following
radios: VHF-L VHF-H UHF 800 MHz Amateur bands
Satellite will be used to provide connectivity into the MPLS network.
Inter-Governmental Agreements
Inter-Governmental Agreements
ODP MOUGrantee Sub-grantee AgreementDocumentation of Award
Standard Operating Procedures
Standard Operating Procedures
Equipment OperationTechnical Assistance
Local UseRegional UseState-wide Use
Testing ComponentsTesting ComponentsFactory AcceptancePilot Site Acceptance
Core PSAPs
Pilot System AcceptanceMobile Communication Units AcceptanceProduction PSAPs Site AcceptanceFinal System
Training and EducationTraining and EducationVendor TrainingEnd Users (Train the Trainer and three regional meetings)System EngineersSystem AdministratorsApplication AdministratorsDatabase Administrators
LETPP Exercises/LocalRegionalState-wide
Communicating with the Public Safety CommunityCommunicating with the Public Safety CommunityBi-monthly NewsletterPersonal VisitChronicle of the ProjectDocuments posted on WebsiteTraining CDSite Survey Tools
Committed?
NEXT STEPS
Identify a Local Project and Technical Point of Contact.
Identify Needs and Implementation Strategies.
Conduct a Site Survey. Sign an Intergovernmental Agreement
before Equipment Installation. Test the System. Participate in developing local SOP’s.
Disscussion
What are your jurisdictions interoperable needs?
What types of radio’s do you want to interface?
Who do you depend on for mutual-aid support?
What Major Events do you participate in? What are your major communications
upgrade plans?
State of Georgia MOTOBRIDGE Interoperability Network CDR 9/26/2005
Site Walks and Site Surveys
Objective is to secure all information needed to complete the location quickly and efficiently
Location and directions Key contact Information GPS Coordinates Review site conditions such as available electrical, grounding, HVAC,
etc. and identify any necessary upgrades Review the existing equipment layouts
– Determine interface opportunities and priorities– Determine final installation location of all MOTOBridge equipment– Identify if the relocation of any existing equipment is necessary
Review cable installation and required lengths Determine MPLS VPN network status and location of required demark Create summary recapping required tasks for the locals, State and
Motorola
Contact Information
Dan BrownGeorgia Office of Homeland Security/GEMA
PO Box 18055Atlanta Georgia [email protected]
(404) 635 – 7212(404) 635 –
7200 24 hr (770) 316 – 0900 Cell