Revolutionizing Electric Cars: Exploring Artificial Integrity in Tesla’s Future

Enhancing Machine Integrity: The Case of Diane’s Tesla Model Y

In the realm of machine design, the distinction between artificially intelligent-led and integrity-led machines is crucial. While the former are created because we can, the latter are built because we should. This paradigm shift underscores the significance of Artificial Integrity in ensuring ethical and responsible design practices.

The Incident

An incident involving a Tesla Model Y and a US consumer, sheds light on the consequences of intelligent-led machine design. The US consumer found herself trapped inside her car when the battery unexpectedly shut down, leaving her unable to open the doors or windows. Even the glove box, containing essential information, was inaccessible.

Desperate for help, she reached out to a neighbor who was also unable to assist from the outside. Eventually, with guidance from the Tesla app, she discovered a hidden manual latch under the armrest that allowed her to escape from the car.

The Problem

This Tesla consumer’s ordeal highlights the limitations of artificial integrity in Tesla’s design. The incident exposes the heavy reliance on AI and electronic systems, without adequate provisions for human intervention in emergencies. The lack of manual overrides and intuitive design elements posed a serious safety risk to Diane and emphasizes the need for a more integrated approach to machine design.

Scenarios of Artificial Integrity

Low Maturity

In a scenario of low maturity of artificial integrity, the AI system provides basic assistance through real-time notifications on how to use manual door releases. However, the system’s failure to consider human factors and lack of intuitive design features showcase its limited integration of artificial integrity.

Medium Maturity

At a medium level of artificial integrity maturity, the AI system attempts to transition to a non-electronic backup mode to assist the driver during emergencies. While providing immediate guidance, the system’s dependence on electronic components and limited backup mechanisms reveal areas for improvement.

High Maturity

In a scenario of high maturity, the AI system seamlessly transitions to a manual override for doors and windows upon detecting a power failure. It includes proactive system checks, detailed instructions, multi-channel communication, and alerts to ensure driver safety and confidence. This robust approach illustrates the potential of a Fusion Mode where AI and human intelligence collaborate synergistically.

Conclusion

Artificial integrity signifies a new era in machine design, emphasizing the importance of ethical considerations, human-centered approaches, and proactive safety measures. By integrating artificial integrity principles, we can prevent regrettable situations and ensure a safer and more reliable user experience.

Embracing artificial integrity over artificial intelligence represents a fundamental shift towards responsible and ethical machine design practices, paving the way for a future where technology prioritizes human well-being above all.