Driving Innovation: De-Facto Standards that Transformed the Automotive Industry & The De-Facto Standard Search Service

Article Mar 14, 2024 8 min read

Introduction

The automotive industry, a hotbed of innovation and evolution, has seen the rise of De-Facto standards that have not only shaped the industry but have become synonymous with excellence. In the dynamic world of technology and engineering, De-Facto standards refer to those practices, technologies, or products that organically emerge as widely accepted norms within an industry, despite lacking official mandates. These standards, driven by their proven effectiveness, universal adoption, and transformative impact, transcend individual companies and influence the entire sector. In this blog, we delve into several products that have become De-Facto standards in the automotive sector, exploring the unique features that propelled them to the forefront and influenced the entire industry. This blog also explores the role of third-party companies that provide the De-Facto standard search service for helping innovators in the domain to provide better and more established products.


Existing Automotive Industry De-Facto Standards

Michelin Radial Tires: Revolutionizing Safety and Performance
Unique Features: Radial Construction, Longevity, and Improved Fuel Efficiency

Michelin's introduction of radial tire technology in the 1940s marked a paradigm shift in the automotive industry. The radial construction, with its layers of steel belts, offered superior stability, improved fuel efficiency, and longer tread life. The adoption of Michelin's radial tires set a De-Facto standard for tire technology, influencing safety and performance across the industry.


Ford Model T: Pioneering Mass Production
Unique Features: Assembly Line Manufacturing, Affordability, and Accessibility

Henry Ford's Model T, produced from 1908 to 1927, wasn't just a car; it was a revolutionary approach to manufacturing. The introduction of assembly line production made the Model T affordable and accessible to the masses. The success of this mass-production model became a De-Facto standard, shaping the way cars were manufactured globally.


Toyota Prius: Propelling Hybrid Technology
Unique Features: Hybrid Powertrain, Fuel Efficiency, and Environmental Sustainability

The Toyota Prius, introduced in 1997, played a pivotal role in popularizing hybrid technology. Its groundbreaking hybrid powertrain, combining an internal combustion engine with an electric motor, set a De-Facto standard for fuel efficiency and environmental sustainability. The Prius not only influenced the automotive industry but also inspired other manufacturers to invest in hybrid and electric vehicle technologies.


Bosch Electronic Stability Control (ESC) System: Elevating Safety Standards
Unique Features: Dynamic Stability Control, Improved Handling, and Reduced Accidents

Bosch's Electronic Stability Control (ESC) System, introduced in the late 1990s, became a De-Facto standard for vehicle safety. By individually braking wheels to prevent skidding, the ESC system significantly improved vehicle stability and reduced the risk of accidents. The widespread adoption of this safety feature reshaped industry standards and underscored the importance of advanced safety technologies.


Apple CarPlay and Android Auto: Redefining Infotainment
Unique Features: Smartphone Integration, Intuitive Interface, and Voice Control

The integration of Apple CarPlay and Android Auto into modern vehicles revolutionized in-car infotainment systems. By seamlessly connecting smartphones to the vehicle's interface, these systems offered navigation, music, and communication services in a user-friendly manner. The adoption of these platforms has become a De-Facto standard, providing a consistent and familiar experience for drivers across various car brands.


MQTT: The Cloud Connectivity De-Facto Standard Protocol
Unique Features: Persistent Session between Client and Car, Cloud to vehicle communication Enabled, Efficient Network Bandwidth

The automotive industry is witnessing a surge in digitization, leading to an increased demand for seamless connectivity between car systems and their owners. Initial connectivity solutions, developed by various car manufacturers, relied on HTTP and SMS protocols. However, these protocols were not designed to meet the specific demands of connected car use cases. HTTP, for instance, relies on consistent network connectivity, a feature that proves challenging as connected cars operate over mobile networks, known for their unreliability. An illustrative scenario involves unlocking a car door via a mobile network, a task that would take an undesirable 30 seconds using HTTP or SMS protocols.

In contrast, the MQTT protocol has emerged as a particularly well-suited solution for connected car applications. This is attributed to its ability to maintain a persistent session between an MQTT client and an MQTT broker. In practical terms, this means that even if a car exits a cellular network zone, the session persists and resumes upon re-entering the network zone. In comparison, HTTP/SMS protocols would require initiating a new session, leading to delays and rendering them less desirable for time-sensitive tasks in connected car environments.


The De-Facto Standard Search: Outline

Knowledge process outsourcing (KPO) companies specializing in intellectual property (IP) and business strategy often provide a service known as the De-facto standard search. These companies play a crucial role in guiding clients through various stages of product development, from initial research to patenting and prosecution.

The De-facto standard search service is designed to help clients understand prevailing industry norms within their specific sector. By doing so, clients can align their innovations with these norms, gaining a competitive edge in the market. This service involves thorough research in the relevant domain to identify existing standards and formulate unique features and strategies. The goal is to offer a comprehensive view of an ideal product development and launch campaign, providing clients with a significant advantage over competitors.

For instance, if a client aims to develop a product for improved cloud connectivity in vehicles, the service would spotlight the key features of the current de-facto standard for cloud connectivity, that is, MQTT (as mentioned in the previous section).

Conclusion

These examples showcase how certain products, through their unique features and widespread adoption, have become de-facto standards in the automotive industry. Whether it's revolutionizing tire technology, democratizing car ownership, championing hybrid technology, enhancing safety, or redefining infotainment, these products have left an indelible mark on the industry. As the automotive sector continues to evolve, these de-facto standards serve as guiding lights, setting the pace for innovation, safety, and sustainability in the road ahead. This is where a knowledge process outsourcing (KPO) company comes in with its De-facto standard search service which highlights the aforementioned guiding lights to an innovator in the automotive industry, hence helping them in producing an ideal innovation or product.

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