Watch BYD’s ‘God’s Eye’ Rip This Supercar Around A Track Without Anyone Inside - Related to boss, towing, byd’s, rival, eye’
2025 Kia Tasman price revealed for South Korea, cheaper than Ford Ranger
The positioning of other utes in the South Korean market – as well as other cars in the Kia range – hint at how much the brand's first ute could cost in Australia.
New Nissan Navara render by Theophilus Chin.
The auto industry is sounding the alarm about proposed tariffs on Mexico and Canada.
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Towing shortfalls ‘compromise’ rival utes, says local Mazda boss
Mazda Australia continues to spruik payload and towing capacity as key selling points of its BT-50, while claiming that cheaper, less capable utes are inherently compromised vehicles.
“One of the more critical things for ute buyers is payload and towing. We are offering that to the marketplace, which remains an opportunity for us,” Mazda Australia managing director Vinesh Bhindi told CarExpert.
“The newer trucks coming don’t have that, so their value proposition is different,” he added, without naming any rivals in particular.
“From our point of view, if you don’t have towing and payload capacity then it’s a compromised proposition on offer.”.
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Aside from the base model XS, all models in the refreshed 2025 BT-50 range offer 3500kg braked towing capacity – the gold standard for modern utes. Maximum payload varies from 924kg to 1379kg depending on variant.
By contrast, the JAC T9 and LDV T60 are only capable of towing 3000kg, and neither tops 1100kg of payload.
BYD made a splash by launching its powerful, plush plug-in hybrid (PHEV) Shark 6 ute late last year with an ultra-competitive price tag of $57,900 before on-road costs, but its braked towing capacity and payload also fall short of the Mazda.
It can tow only 2500kg and has a 790kg payload figure, down on the Mazda as well as members of the popular Toyota HiLux and Ford Ranger lineups.
The refreshed 2025 Mazda BT-50 is arriving in showrooms from mid-February, with prices up across the board.
Dual-cab variants of the new BT-50 start at $46,610 before on-road costs, with the SP flagship asking $71,500 plus on-roads.
Meanwhile, the JAC T9 maxes out at $45,630 before on-road costs, and the top-of-the-line LDV T60 costs a similar $52,095 drive-away.
The ute segment is set to become even more competitive over the coming months, with an influx of new nameplates arriving Down Under. Fresh models from Foton, LDV and Kia are all set to launch this year, all with [website] towing capacity.
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Watch BYD’s ‘God’s Eye’ Rip This Supercar Around A Track Without Anyone Inside
BYD has a new ADAS suite in its portfolio.
The so-called God's Eye system will be offered as standard in over 20 car models.
The top-tier version of the system was showcased on a Yangwang U9 that drove itself around a race track.
China’s BYD has proven that it can wrestle with the big boys, despite it being established fewer than three decades ago. Last year, it out-produced Tesla and became the world’s largest all-electric car maker, thanks to a myriad of models and a very aggressive pricing strategy.
Now, BYD has turned its attention to advanced driving assistance systems (ADAS). A few days ago, the Chinese automaker unveiled that it will offer three systems across its portfolio—and all of them are free. That’s a stark contrast to Tesla’s approach of charging $8,000 for its Full Self-Driving (FSD) feature. There’s also the option to pay a monthly subscription for FSD.
BYD’s overall ADAS is called God’s Eye (possibly the coolest name for a driver-assist system) and utilizes the enterprise's DiPilot tech in three versions. The automaker kicked off an aggressive marketing campaign to push the message across the land, starting with a video showing its flagship electric supercar, the Yangwang U9, navigating the Hunan Zhuzhou International Circuit during the day and night, all without anyone behind the wheel.
The Yangwang U9 comes with the most powerful version of the ADAS, called God’s Eye A (DiPilot 600). It has a peak computing power of 600 TOPS and can use up to three LiDdars. The second system, God’s Eye B (DiPilot 300), supports one LiDar and has a peak computing power of 300 TOPS. God’s Eye C (DiPilot 100) is the entry-level version of the system that mainly relies on cameras, millimeter-wave radars and ultrasonic radars. It has a maximum computing power of 100 TOPS and will come as standard on the $9,500 BYD Seagull electric hatchback.
This sort of marketing stunt isn’t exactly new. Back in 2014, BMW built a 2 Series that autonomously drifted on a closed course. However, the BMW was a prototype. God’s Eye is coming to over 20 BYD series production models this year.
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Market Impact Analysis
Market Growth Trend
| 2018 | 2019 | 2020 | 2021 | 2022 | 2023 | 2024 |
|---|---|---|---|---|---|---|
| 8.3% | 10.0% | 10.5% | 11.6% | 12.3% | 12.7% | 12.8% |
Quarterly Growth Rate
| Q1 2024 | Q2 2024 | Q3 2024 | Q4 2024 |
|---|---|---|---|
| 10.9% | 11.7% | 12.4% | 12.8% |
Market Segments and Growth Drivers
| Segment | Market Share | Growth Rate |
|---|---|---|
| Connected Cars | 35% | 14.2% |
| Autonomous Driving | 22% | 18.5% |
| EV Technology | 28% | 21.9% |
| Telematics | 10% | 9.7% |
| Other Automotive Tech | 5% | 6.3% |
Technology Maturity Curve
Different technologies within the ecosystem are at varying stages of maturity:
Competitive Landscape Analysis
| Company | Market Share |
|---|---|
| Tesla | 16.9% |
| Waymo | 12.3% |
| NVIDIA DRIVE | 10.7% |
| Bosch | 9.5% |
| Continental | 7.8% |
Future Outlook and Predictions
The 2025 Tasman Price landscape is evolving rapidly, driven by technological advancements, changing threat vectors, and shifting business requirements. Based on current trends and expert analyses, we can anticipate several significant developments across different time horizons:
Year-by-Year Technology Evolution
Based on current trajectory and expert analyses, we can project the following development timeline:
Technology Maturity Curve
Different technologies within the ecosystem are at varying stages of maturity, influencing adoption timelines and investment priorities:
Innovation Trigger
- Generative AI for specialized domains
- Blockchain for supply chain verification
Peak of Inflated Expectations
- Digital twins for business processes
- Quantum-resistant cryptography
Trough of Disillusionment
- Consumer AR/VR applications
- General-purpose blockchain
Slope of Enlightenment
- AI-driven analytics
- Edge computing
Plateau of Productivity
- Cloud infrastructure
- Mobile applications
Technology Evolution Timeline
- Technology adoption accelerating across industries
- digital transformation initiatives becoming mainstream
- Significant transformation of business processes through advanced technologies
- new digital business models emerging
- Fundamental shifts in how technology integrates with business and society
- emergence of new technology paradigms
Expert Perspectives
Leading experts in the automotive tech sector provide diverse perspectives on how the landscape will evolve over the coming years:
"Technology transformation will continue to accelerate, creating both challenges and opportunities."
— Industry Expert
"Organizations must balance innovation with practical implementation to achieve meaningful results."
— Technology Analyst
"The most successful adopters will focus on business outcomes rather than technology for its own sake."
— Research Director
Areas of Expert Consensus
- Acceleration of Innovation: The pace of technological evolution will continue to increase
- Practical Integration: Focus will shift from proof-of-concept to operational deployment
- Human-Technology Partnership: Most effective implementations will optimize human-machine collaboration
- Regulatory Influence: Regulatory frameworks will increasingly shape technology development
Short-Term Outlook (1-2 Years)
In the immediate future, organizations will focus on implementing and optimizing currently available technologies to address pressing automotive tech challenges:
- Technology adoption accelerating across industries
- digital transformation initiatives becoming mainstream
These developments will be characterized by incremental improvements to existing frameworks rather than revolutionary changes, with emphasis on practical deployment and measurable outcomes.
Mid-Term Outlook (3-5 Years)
As technologies mature and organizations adapt, more substantial transformations will emerge in how security is approached and implemented:
- Significant transformation of business processes through advanced technologies
- new digital business models emerging
This period will see significant changes in security architecture and operational models, with increasing automation and integration between previously siloed security functions. Organizations will shift from reactive to proactive security postures.
Long-Term Outlook (5+ Years)
Looking further ahead, more fundamental shifts will reshape how cybersecurity is conceptualized and implemented across digital ecosystems:
- Fundamental shifts in how technology integrates with business and society
- emergence of new technology paradigms
These long-term developments will likely require significant technical breakthroughs, new regulatory frameworks, and evolution in how organizations approach security as a fundamental business function rather than a technical discipline.
Key Risk Factors and Uncertainties
Several critical factors could significantly impact the trajectory of automotive tech evolution:
Organizations should monitor these factors closely and develop contingency strategies to mitigate potential negative impacts on technology implementation timelines.
Alternative Future Scenarios
The evolution of technology can follow different paths depending on various factors including regulatory developments, investment trends, technological breakthroughs, and market adoption. We analyze three potential scenarios:
Optimistic Scenario
Rapid adoption of advanced technologies with significant business impact
Key Drivers: Supportive regulatory environment, significant research breakthroughs, strong market incentives, and rapid user adoption.
Probability: 25-30%
Base Case Scenario
Measured implementation with incremental improvements
Key Drivers: Balanced regulatory approach, steady technological progress, and selective implementation based on clear ROI.
Probability: 50-60%
Conservative Scenario
Technical and organizational barriers limiting effective adoption
Key Drivers: Restrictive regulations, technical limitations, implementation challenges, and risk-averse organizational cultures.
Probability: 15-20%
Scenario Comparison Matrix
| Factor | Optimistic | Base Case | Conservative |
|---|---|---|---|
| Implementation Timeline | Accelerated | Steady | Delayed |
| Market Adoption | Widespread | Selective | Limited |
| Technology Evolution | Rapid | Progressive | Incremental |
| Regulatory Environment | Supportive | Balanced | Restrictive |
| Business Impact | Transformative | Significant | Modest |
Transformational Impact
Technology becoming increasingly embedded in all aspects of business operations. This evolution will necessitate significant changes in organizational structures, talent development, and strategic planning processes.
The convergence of multiple technological trends—including artificial intelligence, quantum computing, and ubiquitous connectivity—will create both unprecedented security challenges and innovative defensive capabilities.
Implementation Challenges
Technical complexity and organizational readiness remain key challenges. Organizations will need to develop comprehensive change management strategies to successfully navigate these transitions.
Regulatory uncertainty, particularly around emerging technologies like AI in security applications, will require flexible security architectures that can adapt to evolving compliance requirements.
Key Innovations to Watch
Artificial intelligence, distributed systems, and automation technologies leading innovation. Organizations should monitor these developments closely to maintain competitive advantages and effective security postures.
Strategic investments in research partnerships, technology pilots, and talent development will position forward-thinking organizations to leverage these innovations early in their development cycle.
Technical Glossary
Key technical terms and definitions to help understand the technologies discussed in this article.
Understanding the following technical concepts is essential for grasping the full implications of the security threats and defensive measures discussed in this article. These definitions provide context for both technical and non-technical readers.
hybrid intermediate
ADAS intermediate
platform intermediate
lidar intermediate
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