TL;DR:
- OPPO, AlpsenTek, and Qualcomm collaborate to advance Hybrid Vision Sensing (HVS) technology.
- HVS enhances mobile app picture quality through motion and image data extraction.
- Features include deblurring, augmented resolution, slow-motion reconstruction, and machine sensing.
- The partnership integrates Snapdragon® Mobile Platforms for optimal performance.
- AlpsenTek’s ALPIX® sensor combines EVS with CIS technology for cost-effective high-fidelity motion data.
- Qualcomm emphasizes the significant enhancement of smartphone camera capacities with HVS.
- HVS retains CMOS sensor advantages while addressing redundancy and resource issues.
- OPPO aims to integrate HVS into their HyperTone Camera System for future mobile photography.
Main AI News:
In a strategic partnership, OPPO, AlpsenTek, and Qualcomm Technologies, Inc. have united their expertise to advance Hybrid Vision Sensing (HVS) technology, aimed at extracting valuable motion and image data to elevate the picture quality of mobile phone applications.
Collaboration between OPPO and AlpsenTek will pioneer the utilization of Hybrid Vision Sensing technologies, establishing a robust data processing chain. This chain will facilitate the collection of pertinent camera information, enabling picture quality enhancements such as deblurring, augmented resolution, slow-motion reconstruction, and other vital features for machine sensing. The integration of Snapdragon® Mobile Platforms from Qualcomm Technologies will play a pivotal role in achieving these goals.
AlpsenTek’s Founder and CEO, Jian Deng, emphasized the evolving role of vision sensors, stating, “Vision sensors are now expected to provide additional data such as distance, spectrum, and motion on top of 2D color information.”
AlpsenTek introduced Hybrid Vision Sensing (HVS) technology in 2019, merging event-based Vision Sensing (EVS) with traditional CIS technology, resulting in the ALPIX® sensor. This innovative approach combines high-fidelity motion information essential for photography and machine vision with cost-effectiveness.
Deng further elaborated on their collaboration, saying, “Together with OPPO, we designed the ALPIX-Eiger® to seamlessly integrate into mobile phone applications and worked with Qualcomm Technologies to optimize on Snapdragon. It produces image quality comparable to leading mobile sensors with the added functionality of EVS. Developing this technology, from its original conceptual stage, into an actual product is very exciting.“
The ALPIX® sensor delivers high-quality RGB images alongside an EVS data stream, offering an economical and algorithm-friendly solution for capturing images with embedded motion information.
Judd Heape, VP of Product Management at Qualcomm Technologies, Inc., underscored the significance of this collaboration, stating, “The HVS solution, with the support of hardware and algorithms, significantly enhances the capacities of smartphone cameras. We are pleased to contribute to the optimization of this new technology on our Snapdragon platforms – which will help consumers get the best performance from their smartphone cameras, and capture what’s most precious to them.”
HVS retains the advantages of traditional CMOS image sensors by providing detailed images and vision details. Simultaneously, it addresses challenges such as redundant data accumulation and high resource consumption while adapting effectively to low-light environments for motion information, all without incurring additional costs, system complexity, or the need for image registration.
Mr. Xuan ZHANG, Image Product Director at OPPO, expressed confidence in the potential of HVS technology, emphasizing the continuous refinement efforts, both in chip design and algorithms, in collaboration with their partners. Their ultimate goal is to integrate this technology into OPPO’s HyperTone Camera System, promising a brighter future for mobile photography.
Conclusion:
The collaboration between OPPO, AlpsenTek, and Qualcomm marks a pivotal step in advancing Hybrid Vision Sensing (HVS) technology. This innovative approach promises to revolutionize the mobile app imaging landscape by significantly enhancing picture quality and camera capabilities. As this technology matures and integrates into OPPO’s camera systems, it is likely to have a transformative impact on the market, providing consumers with superior mobile photography experiences.