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Shotron launched a series of biometric fingerprint verification intelligent acquisition terminals, integrating FAP10, FAP20, FAP30, FAP60 full finger, palm acquisition and other different specifications, applied to different scene needs, providing reliable biometric verification equipment for government elections, government administration, personnel control, police law enforcement, banking systems and other fields.
The Shotron series of handheld identity verification terminals integrate built-in ID card readers, IC card recognition, ID card dedicated fingerprint and facial recognition algorithms to perform on-site fingerprint and facial comparison and complete "one-stop" verification. It can also provide various SDK development kits for customer secondary development to meet the identity verification needs of different scenario users.
The accuracy of iris recognition is more than 30 times that of fingerprint recognition. It is a non-contact identification method that is convenient and efficient to use. Iris recognition also has characteristics such as uniqueness, stability, non-replicability, and vitality detection. Its comprehensive security performance is very high. Iris recognition has been widely used in finance, medical care, security inspection, security protection, special industries such as attendance and access control, and industrial control.
The Internet of Things terminals and facial recognition technology have a natural fit. Whether in mobile payment, unmanned retail or smart access control and other fields, they are widely used.
Fingerprint recognition technology is widely used in government elections, government administration, personnel control, police law enforcement, banking systems and other fields. However, due to the long-term and high-intensity use of fingerprint hardware, fingerprint image damage, scratches and wear are often prone to occur, which in turn leads to frequent equipment failures, greatly reduced service life and reliability, posing considerable challenges to the stable operation of the system.
In voting and election activities, due to the large amount of fingerprint collection and verification that needs to be completed in a short period of time, higher requirements are placed on the speed and accuracy of the equipment. Compared with insufficient optimization of algorithms and relatively low accuracy, FAP10 fingerprint verification cannot meet this demand.
We adopt high-precision fingerprint recognition technology to optimize image processing, reduce false rejection rate and increase recognition rate. Our equipment supports rotating fingerprint acquisition, using high-precision capacitive fingerprint sensors such as FAP20 and FAP30, which provide clearer imaging and faster acquisition speed. It is suitable for dry, wet and rough fingers, and is widely applicable. It is especially suitable for application scenarios such as elections and voting.
In voting and election activities, due to the large amount of fingerprint collection and verification that needs to be completed in a short period of time, higher requirements are placed on the speed and accuracy of the equipment. Compared with insufficient optimization of algorithms and relatively low accuracy, FAP10 fingerprint verification cannot meet this demand.
hrough authoritative certifications such as FIPS 201 PIV, FBI and GA, fingerprint collection and verification are more reliable and secure. Using fingerprint recognition equipment certified by these authorities can effectively protect personal information and asset security, and ensure data confidentiality and integrity.
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