Sherlock single and dual finger plain/roll capture device at 500 ppi by Integrated Biometrics

Sherlock single and dual finger plain/roll capture device at 500 ppi by Integrated Biometrics
Product name:

Sherlock single and dual finger plain/roll capture device at 500 ppi

Product version:

n/a

Product type:

Sensor, Integrated Product

Biometric modality/type:

Fingerprint

Biometric sample acquisition sensor type:

Light Emitting Sensor, LES film with a thin film transistor (TFT)

Intended applications:

  • Border management/Maritime/Ports/Civil ID
  • Physical Access Control
  • Time & Attendance
  • Consumer ID
  • Criminal ID/Law enforcement
  • Data access/security
  • Device access
  • Document issuance/Civil ID
  • Employment background checks/Civil ID
  • Logical Access Control/Data or device access/Data security
  • Military ID
  • Mobile ID
  • Voter registration/Civil ID

Product description:

Sherlock utilizes Integrated Biometrics patented LES film with a thin film transistor (TFT) providing the highest forensic quality roll image in the smallest and lightest form factor available on the market today. Sherlock is highly efficient and provides a 95% reduction in size and weight when compared to optical scanners.

Sherlock is provided with a full featured SDK to enable effective integration into applications requiring Certified quality images. This product meets the needs for both enrollment and verification applications common in international standards based programs. Sherlock is particularly suited to the many mobile applications where minimal size and weight have significant value. It can also cost effectively perform all requirements common in Ten Print enrollment applications.

Lightweight: designed to have minimal impact on the overall weight or structure of biometric devices

Compact: designed to easily integrate into multiple applications, allowing biometric devices to be smaller and more mobile

Durable: impact resistant and able to withstand the toughest conditions with minimal maintenance or damage due to scratching or breakdown from contaminates

Accurate: provides accurate high-resolution fingerprint scans in virtually any environment: indirect or direct sunlight, a factory, with dirty or clean fingers

Secure: live finger detection Efficient: LES fingerprint sensor is not easily confused by foreign matter and contaminants, allowing the sensor surface and the biometric access control solution to be essentially maintenance-free. Requires no cleaning for latent prints.

List of applied/complied/received standards, certification programs, awards, or conducted independent testing, monitoring, reporting, and reviews:

Sherlock: FBI Appendix F Certification

Sherlock: FBI PIV Certification

GSA FIPS 201 Certified

Availability of Return on Investment (ROI) analysis and calculator:

n/a

Selected list of use cases and customers:

Company:

Integrated Biometrics

Company business type/role:

Sensor manufacturer, Algorithm developer, Device manufacturer

Geographical reach in terms of sales and support:

n/a

Selected list of partners/resellers/distributors:

n/a

Company website:

http://www.integratedbiometrics.com

Product website:

http://www.integratedbiometrics.com/fingerprint-sensors/sherlock/

Social Media channels:

LinkedIn , News , Youtube Channel

Product demo, case study, or any other video or audio link:

Advertisements

About Babak Goudarzi Pour
Babak is co-founder and CEO of Optimum Biometric Labs (OBL) since its inception in 2003. Babak has served as the Chairman of the Swedish National Biometric Association, SNBA, since its inception in 2004. He also works as Swedish technical expert in the international standardization work ISO/IEC/JTC 1/SC 37. Babak holds a M.Sc. and B.Sc. in Electrical Engineering with emphasis on Signal Processing and Telecommunications from Blekinge Institute of Technology.

Leave a Reply

Fill in your details below or click an icon to log in:

WordPress.com Logo

You are commenting using your WordPress.com account. Log Out / Change )

Twitter picture

You are commenting using your Twitter account. Log Out / Change )

Facebook photo

You are commenting using your Facebook account. Log Out / Change )

Google+ photo

You are commenting using your Google+ account. Log Out / Change )

Connecting to %s

%d bloggers like this: