CES 2026 "The First Look" Highlights
Samsung Electronics announced its AI vision and strategies at "The First Look" on January 4, before the opening of CES 2026. Under the slogan "Companion to AI Living," Samsung announced its ambition to lead the broader adoption of daily AI experiences by introducing new products and technologies that bring enjoyment, convenience, and care into our daily lives. Check out the highlights from "The First Look" to learn more about upcoming Samsung AI developments.
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Adding Credit Cards to a User Wallet with the Adding Wallet Cards APISamsung Wallet provides a digital wallet service through wallet cards registered to it. Adding a card to the user device is normally triggered by user interaction, such as tapping the Add to Samsung Wallet button or clicking a link. This tutorial presents the Adding Wallet Cards API, which allows cards to be instead added directly to a device without any user interaction. Partners can add cards to Samsung Wallet using an email address or mobile phone number, without requiring additional user action. Check out the detailed implementation process for the Adding Wallet Cards API on our blog, to help deliver a seamless service without user intervention.
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Integrate Personalized Gift Cards for a Seamless Wallet Experience
Create your own gift card design using Samsung's template system. This guide walks you through the integration of the Add to Samsung Wallet button by defining key elements of your card, such as balance, expiration date, and barcode. Deliver your brand’s gifting experience directly to customers’ devices.
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6G AI/ML for Physical-Layer: Part II - CSI Compression with JSCM
While the efficient acquisition of Channel State Information (CSI) is critical in modern wireless systems, traditional non-AI approaches struggle with the significant inflation of feedback payload when the number of antenna ports increases. AI-driven schemes designed to address this issue can substantially reduce CSI feedback overhead and boost throughput, but they still suffer from several practical issues: limited interoperability between vendor models, high computational complexity and power consumption, and a "cliff effect" that causes a sharp deterioration of performance.
To address these issues, Samsung Research proposes a Joint Source Channel Coding and Modulation (JSCM) framework that introduces the concept of semantic communication, where the focus is shifted from the raw signal recovery to the meaning of the transmitted information. Unlike the conventional framework that first quantizes the CSI signal and then encodes it separately, JSCM operates directly on the unquantized signal and jointly optimizes source and channel coding as well as modulation, overcoming the technical limitations of conventional equal-bit protection. Go to the Samsung Research blog to learn more about the new JSCM paradigm, a core 6G technology to drive its systematic extension.
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DIFFSSR: Stereo Image Super-resolution Using a Differential Transformer
Following SwinIR, which set a benchmark for image super-resolution using Swin Transformers, and SwinFIR, which further improved it to achieve SOTA, SwinFIRSSR established a strong baseline in StereoSR by introducing a Stereo Cross-Attention Module (SCAM). However, due to Transformers’ inherent attention noise and the structural limitation of SCAM being restricted to horizontal epipolar lines, performance degraded under misalignment. In addition, simply applying the DIFF Transformer (originally optimized for linguistic tasks) also led to performance degradation in visual tasks.
As such, this study proposes DIFFSSR, which redesigns the DIFF Transformer for StereoSR and incorporates its core component, the Differential Cross Attention Block (DCAB). The newly introduced DCAB and SSCAM address the aforementioned attention noise and epipolar line misalignment issues, achieving new SOTA results across StereoSR benchmarks. This is also the first successful adaptation of the DIFF Transformer to visual tasks. DIFFSSR demonstrates the potential of Differential Transformers designed for visual tasks. Explore the DIFFSSR study in detail on the Samsung Research blog.
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IEEE 802.11bn (Ultra-High Reliability (UHR), Wi-Fi 8)
While previous Wi-Fi standards placed higher priority on extending bandwidth and boosting the maximum transmission speed, the upcoming IEEE 802.11bn (Wi-Fi 8) shifts the focus on ultra-high reliability (UHR). Designed to deliver stable performance even in challenging environments such as coverage edges, the key goals of this standard are a 25+% increase in throughput under difficult signal conditions and a 25% reduction in latency. With its draft version 1.0 finalized in July 2025 and certification targeted to launch in December 2027, IEEE 802.11bn presents a standardization vision that looks to transform the user experience of consistent performance, going beyond mere speed improvements. Check out the Samsung Research blog for a deep dive into the Wi-Fi 8 standardization journey and key technologies to deliver not just speed, but reliable connections.
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