COSEC Introduction Right People in Right Place at
- Slides: 84
COSEC Introduction Right People in Right Place at Right Time
What does COSEC provide you? • A system to control access on multiple areas. • COSEC provides ultimate security solution to enhance productivity and efficiency of an organization. • COSEC is complete powerful Web based Time. Attendance and Access Control System.
COSEC Architecture include three components: 1. Devices, 2. Application Software and 3. Database. Enroll, Alerts, Integrate, VMS COSEC Monitor COSEC Web COSEC Platform Devices Application Software Database
1. Devices • Registers/Enrolls Credentials. • Stores templates in device memory. • Identifies user based on credentials. • Performs control operations.
COSEC Device Types 1. Door Series: FOP FOT CAP FOW PVR 2. NGT Series 3. VEGA Series Devices with Display
Devices without Display 4. PATH Series PATH Controller PATH Reader
Door Controllers Standar d Premium
2. Application Softwares • Allows to configure features. • Sends commands/configurations to Devices. • Communicates with device. • Processes the Events and Data.
COSEC Platform COSEC Web and Security Services COSEC Monitor COSEC Enroll COSEC Alerts COSEC Integrate COSEC VMS PE, GE, ME, LE
3. Database • COSEC Provides database support to store and manage all data. • COSEC supports either MSSQL database or ORACLE database. • User can Integrate (Export/Import) data with COSEC.
Types of Biometrics Fingerprint Facial Recognition Palm Recognition DNA Matching Iris Recognition
Technologies in COSEC: Biometrics Fingerprint Palm Vein recognition
Non-biometric RFID Card Pin
Why Biometrics? • Biometric is the technology of measuring and analyzing biological data. • Authenticates user based on verification. • Authentication by biometric credentials is very common in public and corporate security systems. • It increases security - Provides a convenient and additional tier of security. • Eliminates problems caused by lost IDs or forgotten passwords by using physiological attributes. For e. g. Prevent unauthorized use of lost, stolen or "borrowed" ID cards.
How fingerprints work? • COSEC Includes Fingerprint and Palm Vein Pattern technology. • A fingerprint pattern is comprised of sequence of Ridges and Valleys. • The Dark line in a fingerprint image is called Ridges which absorbs the light. • The Valleys are the areas between the Ridges which reflects the light. Ridges Valleys
Scanners 1. Optical Scanner • Optical scanner used to capture fingerprint image. • The ridges absorb the light, so they appear dark and valleys reflect the light so, they appear bright. • The CCD generates inverted image of the finger according to the light intensity and generates an analog signal.
Optical Scanner basic
2. Capacitive Scanner • Capacitor is composed of 2 D array of micro capacitor plates embedded in a Silicon chip • In capacitor Scanner, one plate is available on sensor while second plate is finger skin itself • Electrical charges are created between the finger surface and the silicon plates • The distance variation of ridges and valleys with respect to plates leads to distinguished pattern
Capacitive Scanner basic
Optical vs Capacitive scanner • Accuracy is less for solid state sensors due to limitation in sensing area. • Due to direct contact of solid state surface with finger; its more prone to mechanical damages/electrostatic charges. • Adjustment in electrical parameters, will be reliable for the non ideal skin conditions, so solid state scan is better. • Moreover, solid state scanner needs a three dimensional surface and so cannot be deceived by a photograph/printed images.
Palm Vein Technology • Palm Vein utilizes blood vessel pattern as an identifying factor. • More secured, as veins are internal, so cannot be duplicated. • Palm has more complicated, broader and unique vascular pattern. • It’s a contact less and hygienic technique that will work out even if the hands are dirty or wet.
… • COSEC door controller uses infrared sensor to capture palm vein images. • An individual's vein pattern image is captured by reflection and illumination with near infrared rays. • Veins contain deoxidized hemoglobin, an ironcontaining pigment in the blood that passed oxygen through the body. • These pigments absorb the near-infrared light and reduce the reflection rate causing the veins to appear as a black pattern.
Diagrammatic representation
Block Diagram • Sensor reads the pattern on the finger/Palm vein surface. • Analog to Digital converter converts analog reading into the digital format. • Interface module is responsible for communicating with the external device.
Radio Frequency Identification • It is radio - frequency electromagnetic field, used to transfer data from source to destination. • The Reader sends out radio signals, and the card responds with a signal to identify itself. • The Reader converts radio waves returned from the tag in to data. • The data are sent to an information processing system (Host or Processing computer) for identification. • System grant or deny access to user based on the information received.
Types of RFID Cards 1. Proximity Cards • Read Card • Low Frequency (125 KHz) • Typical Range of around 5 cm 2. Smart Cards • Read/Write Cards • Comparatively High Frequency (13. 56 MHz) • Typical Range of around 10 cm
3. Passive Cards • No Battery • Low Cost 4. Active Cards • On-Board Transceiver • Battery • High Cost • Long Range
Proximity Cards (Low Frequency) Smart Cards (High Frequency) EM Prox Mi. Fare Hi. D Prox Hi. D-i. Class (U-Reader: UART Interface and WReader: Wiegand Interface)
Stages of Operation
COSEC Modules • Matrix COSEC provides centralized management and control of the entire system. • It gives opportunity to access all the timeattendance information from anywhere at any time. • Matrix COSEC has modular and scalable architecture which offers solution to all types of organization. • Time-Attendance Module (TAM), Visitor Management Module (VMM), Employee Self Service Module (ESS), e-Canteen Management Module (CMM), Roster Management Module (RSM) and Contract Worker Management Module (CWM) depending on the requirement of the organization.
CMM ACM VMM T&AM RMM CWM
COSEC Platform Matrix COSEC Platform come in four variants: 1. PE (Potential Enterprise with 100 default users, not expandable) 2. GE (Growing Enterprise with 100 default users expandable up to 500) 3. ME (Medium Enterprise with 500 default users expandable up to 1000) 4. LE (Large Enterprise with 1000 default users expandable up to 1 Million users)
Comparison Up to 1 Million 3000 2500 Up to 1000 2000 Expandable 1500 Up to 500 1000 500 Default Users NA 0 PE GE ME LE
COSEC Hardware FO P PVR FO W FO T NGT
Gate Controller VEGA CAX Gate Controller -VEGA FAX
PATH Controller. DCFX PATH Controller. DCCX Panel Lite
RDFX RDCX
These interfaces are not possible with FOT and Gate Controller FOTX device COSEC Applicatio n External Reader Door Lock Exit Switch Panel Lite Aux output Port Aux Input Port Power Etherne t Weigand
NGT Interfaces 3. 1 MP Camera 7’’ LCD Touch Sense Display Exit Switch Ethernet Integration Door Lock Aux Output Port Aux Input Port Voice Guidance USB Support Capacitive Scanner
Technical Specification of COSEC Devices
FOP (Fingerprint Optical Premium) • Readers: Card, Fingerprint and PIN • FP Module: Optical • FP Template: 9600 • LCD (128 x 64 Dot-Matrix): Yes • Touch-Sense Keys (16): Yes • Communication: Ethernet 10/100 Mbps and RS 485 • External Reader: 1 Port for Card/Fingerprint Reader • External Reader Interfaces: RS 232 and
Application Access Control and Time & Attendance Credential Support Finger, Card, PIN Cards per User 2 Events Buffer 50, 000 User Capacity 2000 (when used as Direct Door) LED Indication 4 LED Allowed, Denied, Status, Alarm Buzzer Yes Communication Ethernet and RS 485 Communication Speed 10/100 Mbps on TCP/IP and 115. 2 kbps on RS 485 External Readers type 1 Port for Card/ Finger/Card+Finger/UHF Reader External Readers Interface RS 232 and Wiegand Aux Input Port Programmable NO, NC, Supervised
External Readers Power Output Internal 12 VDC, 0. 5 A or External Door Status Sense Programmable NO, NC, Supervised Door Lock Relay SPDT, Form C, 1 A@30 VDC Door Lock Power Internal 12 VDC, 0. 5 A or External Tamper Detection Yes CPU 32 bit Microcontroller Flash Memory 512 KB Internal + 2 MB Flash RAM Memory 128 KB SRAM Input Power 12 VDC@2 A Temperature -20˚ C to +60˚ C (-4˚ F to 140˚ F) Humidity 5% to 95% RH Non Condensing Exit Switch Port Yes
FOT (Fingerprint Optical T&A) • Readers: Card, Fingerprint and PIN • FP Module: Optical • FP Template: 9600 • LCD (128 x 64 Dot-Matrix): Yes • Touch-Sense Keys (16): Yes • Communication: Ethernet 10/100 Mbps and RS 485 • External Reader: NA • External Reader Interfaces: NA
Rear Interfaces of FOP and FOT FOP FOT
FOW (Fingerprint Optical • Wireless) Readers: Card, Fingerprint and PIN • FP Module: Optical • FP Template: 9600 • LCD (128 x 64 Dot-Matrix): Yes • Touch-Sense Keys (16): Yes • Communication: Ethernet 10/100 Mbps and RS 485, Mobile Broadband Inbuilt Wi-Fi • External Reader: 1 Card/Fingerprint Reader Port • External Reader Interfaces: for RS 232
Application Access Control and Time & Attendance Credential Support Finger, Card, PIN Cards per User 2 Events Buffer 5, 000 User Capacity 50, 000 LED Indication 4 LED Allowed, Denied, Status, Alarm Buzzer Yes Communication Ethernet and RS 485, Wi-Fi, Mobile Broadband Communication Speed 10/100 Mbps on TCP/IP and 115. 2 kbps on RS 485 External Readers type 1 Port for Card/ Finger/Card+Finger/UHF Reader External Readers Interface RS 232 and Wiegand
Aux Output Port Relay SPDT, Form C, 1 A@30 VDC External Readers Power Output Internal 12 VDC, 0. 5 A or External Door Status Sense Programmable NO, NC, Supervised Door Lock Relay SPDT, Form C, 1 A@30 VDC Door Lock Power Internal 12 VDC, 0. 5 A or External Tamper Detection Yes CPU 32 bit Microcontroller Flash Memory 512 KB Internal + 2 MB Flash RAM Memory 128 KB SRAM Input Power 12 VDC@2 A Temperature -10˚ C to +50˚ C (-4˚ F to 140˚ F) Humidity 5% to 95% RH Non Condensing Exit Switch Port Yes
Rear Interfaces of FOW USB Port for Backup Rear View Bottom View Wireless Modem for connect
PVR (Palm Vein Reader) • Readers: Palm, Card and PIN • Palm Sensor: Infrared • Palm Template: 20, 000 • LCD (128 x 64 Dot-Matrix): Yes • Touch-Sense Keys (16): Yes • Communication: Ethernet 10/100 Mbps and RS 485, Mobile broadband Inbuilt Wi-Fi • External Reader: 1 Port for Card/Fingerprint Reader • External Reader Interfaces: RS 232 and Wiegand
Application Access Control and Time & Attendance Credential Support Palm, Card, PIN Cards per User 2 Events Buffer 1, 000 User Capacity 10, 000 (when used as Direct Door) LED Indication 4 LED Allowed, Denied, Status, Alarm Buzzer Yes Communication Ethernet and RS 485, Wi-Fi, Mobile Broadband Communication Speed 10/100 Mbps on TCP/IP and 115. 2 kbps on RS 485 External Readers type 1 Port for Card/ Finger/Card+Finger/UHF Reader External Readers Interface RS 232 and Wiegand
Aux Output Port Relay SPDT, Form C, 1 A@30 VDC External Readers Power Output Internal 12 VDC, 0. 5 A or External Door Status Sense Programmable NO, NC, Supervised Door Lock Relay SPDT, Form C, 1 A@30 VDC Door Lock Power Internal 12 VDC, 0. 5 A or External Tamper Detection Yes CPU 32 bit Microcontroller Flash Memory 512 KB Internal + 2 MB Flash RAM Memory 128 KB SRAM Input Power 12 VDC@2 A Temperature -10˚ C to +50˚ C (-4˚ F to 140˚ F) Humidity 5% to 95% RH Non Condensing Exit Switch Port Yes
PATH Controller DCFX DCCX X: E, M, I, P
D C F X D: Door C: Controller F: Fingerprint X E EM Prox M Mi. Fare I Hi. D i. Class P Hi. D Prox
D C C X D: Door C: Controller C: Card X E EM Prox M Mi. Fare I Hi. D i. Class P Hi. D Prox
PATH Reader RDFX RDCX X: E, M, I, P
R D F X RD: Reader F: Fingerprint X E EM Prox M Mi. Fare I Hi. D i. Class P Hi. D Prox
R D C X RD: Reader C: Card X E EM Prox M Mi. Fare I Hi. D i. Class P Hi. D Prox
DCFX Readers: Card, Fingerprint FP Module: Optical FP Template: 9600 LCD (128 x 64 Dot-Matrix): No Touch-Sense Keys (16): No Communication: Ethernet 110/100 Mbps , RS 485 • External Reader: 1 Port for Card/Fingerprint Reader • External Reader Interfaces: RS 232 and Wiegand • • •
Application Access Control and Time & Attendance Credential Support As per Module Cards per User 2 Events Buffer 50, 000 User Capacity 2000 (when used as Direct Door) LED Indication Tri Color LED Buzzer Yes Communication Ethernet and RS 485 Communication Speed 10/100 Mbps on TCP/IP and 115. 2 kbps on RS 485 External Readers type 1 Port for Card/ Finger/Card+Finger/UHF Reader External Readers Interface RS 232 and Wiegand External Readers Power Output Internal 12 VDC, 0. 5 A or External
Door Status Sense Programmable NO, NC, Supervised Door Lock Relay SPDT, Form C, 1 A@30 VDC Door Lock Power Internal 12 VDC, 0. 5 A or External Tamper Detection Yes CPU 32 bit Microcontroller Flash Memory 512 KB Internal + 2 MB External RAM Memory 128 KB SRAM Input Power 12 VDC@2 A Power Over Ethernet(POE) Yes IP 65 (Waterproof) Yes Temperature -20˚ C to +60˚ C (-4˚ F to 140˚ F) Humidity 5% to 95% RH Non Condensing Exit Switch Port Yes
DCCX Readers: Card FP Module: No LCD (128 x 64 Dot-Matrix): No Touch-Sense Keys (16): No Communication: Ethernet 110/100 Mbps, RS 485 • External Reader: 1 Port for Card/Fingerprint Reader • External Reader Interfaces: RS 232 and Wiegand • • •
Application Access Control and Time & Attendance Credential Support Finger and Card as per Module Cards per User 2 Fingerprint Module Type Optical Fingerprint Template per User 10 Fingerprint Verification 1: 1 to 1: N Events Buffer 50, 000 User Capacity 2000 (when used as Direct Door) LED Indication Tri Color LED Buzzer Yes Communication Ethernet and RS 485 Communication Speed 10/100 Mbps on TCP/IP and 115. 2 kbps on RS 485 Exit Switch Port Yes
External Readers type 1 Port for Card/ Finger/Card+Finger/UHF External Readers Interface RS 232 and Wiegand External Readers Power Output Internal 12 VDC, 0. 5 A or External Door Status Sense Programmable NO, NC, Supervised Door Lock Relay SPDT, Form C, 1 A@30 VDC Door Lock Power Internal 12 VDC, 0. 5 A or External Tamper Detection Yes Flash Memory 512 KB Internal + 2 MB External RAM Memory 128 KB SRAM Input Power 12 VDC@2 A Power Over Ethernet(POE) Yes IP 65 (Waterproof) Yes Temperature -20˚ C to +60˚ C (-4˚ F to 140˚ F) Humidity 5% to 95% RH Non Condensing
RDCX • Readers: Card • FP Module: No • LCD (128 x 64 Dot-Matrix): No • Touch-Sense Keys (16): No • Communication: Rs 232 and Wiegand • Power supply from main device
RDFX • Readers: Card, Fingerprint • FP Module: Optical • FP Template: 9600 • LCD (128 x 64 Dot-Matrix): No • Touch-Sense Keys (16): No • Communication: RS 232 and Wiegand • Power supply from main device
PATH Interfaces
CA • RFID(Proximity/Smart card) Reader • RS 232 interface • Tamper detection • LED Indications • Built- in buzzer • Power supply from door
Reader Interfaces 1. Wiegand • Distance coverage 150 m from Door Controller • Uses D 0 and D 1 lines for communication 2. Serial RS 232 • Distance coverage is 4. 5 m from Door Controller • Uses Rx and Tx for communication
NGT (Next Generation Terminal) • • • • 3. 1 Mega Pixels Camera 7” touch sense TFT LCD WI-FI and Ethernet USB Port Photo capture and storage Graphical user interface Multimedia functions Multiple languages Integration with DVR and NVR Voice Guidance 1, 000 Events Storage 10, 000 Users 19, 200 Finger templates
Panel Lite
Features of Panel Lite • Ethernet and RS 485 Port for Network connectivity • Power input port • Supervised Alarm Input Port(Ex. Sensor input) • Auxiliary Output Relay Contact(Ex. Siren connectivity) • Audio & Visual Indication (LEDs, Buzzer) USB port • Wireless communication ability with the COSEC server through WI-FI/Mobile Broadband
• Maximum 75 DOORs on Ethernet Using RS 485 interface, maximum number of doors can be 32; Maximum 75 DOORs in a heterogeneous environment • • • 25000 Users Capacity Stores 1, 000 Events Log Supervised Alarm Input Port Auxiliary Output Relay Contact Audio & Visual Indication (LEDs, Buzzer)
Connections • User can connect doors with panel lite using different modes 1. Ethernet(TCP/IP) Connection-For Panel & Direct doors 2. RS 485 (Serial) Connection (Supports upto 1200 meters) (For Panel Lite doors only) 3. Mix/Heterogeneous Mode (Both Ethernet and RS 485) (For Panel Lite doors only)
Single Door Architecture
Multi-Door Architecture
RS 485 Connectivity Loop IN Loop OUT Termination Resistor COSEC Server
Mixed Connectivity Loop IN Termination Resistor Loop OUT Ethernet COSEC Server
COSEC System
COSEC Basic Module T&AM (Time & Attendance Module) ACM (Access Control Module)
Time and Attendance • Easy to configure multiple attendance policies • COSEC manages all employees attendance through server • Central monitoring of multiple branches(devices) through single application
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