BYD

Last updated February 1, 2026

720

Innovation Areas

34,443

Inventors

189

Collaborations

Capacitive touch state detection circuitry: BYDRecent Research Landscape

Environmental interference and hardware aging cause touch input drift and ghosting in vehicle displays. These methods dynamically adjust sensitivity thresholds to maintain input accuracy.

What technical problems is BYD addressing in Capacitive touch state detection circuitry?

Unreliable biometric authentication accuracy

(13)evidences

Ambiguous input signals across diverse hardware platforms lead to incorrect command execution. Resolving this prevents unintended system responses and improves interaction reliability.

Unreliable biometric identity verification

(8)evidences

Standard authentication methods suffer from spoofing vulnerabilities and environmental interference in mobile or vehicular settings. Establishing a high-fidelity physiological link ensures secure and non-repudiable access control.

Inaccurate touch state detection

(6)evidences

Environmental noise and hardware drift cause false positives or missed inputs in touch interfaces. Resolving this ensures reliable user interaction across varying operating conditions.

Inconsistent cross-platform interface synchronization

(5)evidences

Incompatibility between vehicle bus protocols and multimedia interfaces prevents seamless resource integration. Resolving this allows unified semantic interpretation across heterogeneous automotive subsystems.