7 Hidden New Features Your Smartphone Has in 2025 (But You’re Not Using)

Modern smartphones now come with massive 6.9-inch displays and pack amazing features like wireless charging and multi-camera systems. Most users barely tap into their device’s new capabilities though.

Modern smartphones now come with massive 6.9-inch displays and pack amazing features like wireless charging and multi-camera systems. Most users barely tap into their device’s new capabilities though.

My years of smartphone testing have taught me something interesting – people rarely use their phone’s best features. Sure, 5G connectivity and digital car keys are becoming standard now, but your phone has so many hidden functions you haven’t tried yet. Your device can instantly create hotspot connections and even lets you edit messages up to 15 minutes after sending them.

This piece reveals 7 incredible features tucked away in your 2025 smartphone. These aren’t just fancy bells and whistles – they’re useful tools that will make your daily phone use much better.

AI-Powered Context Awareness

_{Image Source: Addevice}

Your smartphone’s AI capabilities have evolved by a lot and now offer customized experiences that adapt to your daily routines. Modern devices analyze behavior patterns and anticipate needs through sophisticated context-aware features ^[1].

How Your Phone Anticipates Your Needs

The latest smartphones use advanced AI systems that learn from your interactions and understand your priorities to adapt content delivery ^[1]. To cite an instance, your current location appears as a suggestion after you type “I’m at” followed by a space. Your phone number automatically pops up as an option after you enter “My number is” ^[1].

Digital assistants process complex, multi-step tasks in applications of all types ^[1]. These AI-powered assistants analyze your surrounding environment, temporal context, and spatial information to provide relevant suggestions ^[2]. The data shows that users touch their smartphones approximately 2,617 times daily. All but one of these users check their devices within five minutes of waking up ^[3].

Setting Up Predictive Assistance

Predictive text and smart replies have changed how we communicate. The system learns from your typing habits and offers suggestions that complete words or phrases as you type ^[1]. These features work best if you:

• Enable predictive text in keyboard settings
• Accept suggestions by tapping the space bar
• Customize text shortcuts for commonly used phrases
• Allow auto-spacing and auto-punctuation to type smoothly ^[1]

Privacy Controls for AI Features

Apple Intelligence and other manufacturers have implemented reliable privacy measures for AI features. The system works through:

1. On-device processing: Handles personal information without collecting data ^[1]
2. Private Cloud Compute: Extends privacy protection into cloud services ^[1]
3. Secure Enclave: Protects critical encryption keys on servers ^[1]

Android minimizes and de-identifies data from intelligent features ^[2]. Samsung makes AI interactions transparent and collects minimal data to protect privacy ^[3].

Ground Applications That Save Time

Context-aware features streamline your daily tasks. The system can:

• Analyze behavior to pre-load apps you might use next ^[2]
• Manage battery consumption by monitoring app usage patterns ^[2]
• Provide weather updates and commute times based on your location ^[4]
• Suggest nearby restaurants and services based on your priorities ^[4]

These AI capabilities process raw contextual data about your surrounding environment and corresponding behavioral activities ^[2]. The system creates context-aware rules with an ‘IF-THEN’ logical structure. The antecedent part represents surrounding contextual information, and the consequent part shows corresponding behavioral activities ^[2].

The average user spends approximately 4 hours and 25 minutes on their smartphone daily, mostly on social media, messaging, and entertainment apps ^[3]. AI features optimize app launch times and suggest content based on your location or time of day ^[2].

This technology goes beyond simple command execution. It engages in nuanced interactions that adapt to your unique priorities and lifestyle ^[1]. This customization includes language priorities, so you receive information in your preferred format without extra setup ^[1].

Advanced Biometric Authentication Layers

_{Image Source: ARATEK}

Biometric security has grown far beyond simple fingerprint scanning. Smartphones now use sophisticated authentication layers that make them more secure than ever. These modern devices combine multiple biometric features to verify your identity through unique biological and behavioral characteristics.

Beyond Fingerprints and Face ID

Latest smartphones use advanced authentication methods that analyze distinctive traits like hand geometry, vascular anatomy, and even cardiographic data ^[3]. You can now authenticate anywhere on the display with full-screen fingerprint sensing capabilities ^[3]. Ultrasound-based fingerprint scanning reads deeper into skin layers and improves accuracy ^[3].

Voice Pattern Recognition

Voice authentication has become a powerful hands-free security option that works great when facial or fingerprint recognition isn’t practical. Your unique voice characteristics, shaped by airways, soft-tissue cavities, and jaw movements, create a distinctive “voiceprint” ^[5].

The technology analyzes over 100 unique identifiers in each person’s speech pattern ^[6]. However, some limitations exist:

• Background noise can affect sample quality
• Not ideal for public spaces
• Strong liveness detection needed to prevent recording-based spoofing ^[5]

Behavioral Biometrics

The most fascinating advancement comes from behavioral biometrics that analyzes your natural device interactions. The system tracks:

• Typing patterns and keyboard dynamics
• Touch screen interaction styles
• Device handling patterns
• Walking gait characteristics ^[3]

These behavioral patterns create a continuous authentication system that works quietly in the background ^[2]. The technology adapts to subtle behavioral changes while you retain control, protecting without disrupting your experience ^[2].

Setting Up Multi-Factor Biometric Security

Modern smartphones support multimodal biometric systems that combine multiple authentication methods to improve security. You can maximize protection by:

1. Enabling continuous authentication monitoring
2. Setting up voice pattern recognition for hands-free operations
3. Configuring behavioral analysis settings
4. Establishing backup authentication methods ^[4]

Your biometric data flows through several components. A scanning device captures the data, specialized software processes and compares it with stored templates, and a secure database maintains the information ^[2]. Your original biometric data stays protected as the system stores templates as proprietary representations rather than actual recordings ^[7].

Palm vein recognition leads recent developments by examining unique vascular patterns for authentication ^[2]. The global biometric authentication market shows rapid progress, projected to reach nearly USD 100.00B by 2027, growing at a 14.6% annual rate ^[8].

Facial recognition will lead growth at 45%, with multimodal systems following at 16% ^[8]. These improvements go beyond simple authentication and include AI-powered facial expression detection and mask-wearing recognition capabilities ^[3].

Smartphones now use tokenization to improve security. This process replaces sensitive data with unique identifiers verified through biometric authentication ^[9]. Users get strong defense against unauthorized access without sacrificing convenience.

Advanced biometric layers mark a huge step forward in smartphone security. These technologies keep getting better at balancing strong protection with smooth user experience. Your smartphone can provide unmatched protection for your personal data and digital life when you configure these security features properly.

Cross-Device Continuity Features

_{Image Source: Prateeksha Web Design}

Modern smartphones have changed the way we work with multiple devices. They bring features that mix the roles of phones, tablets, and computers. These capabilities fascinate me as I spend a lot of time testing them.

Smooth App States Across Devices

The rise of continuity features has changed how we switch between devices. Handoff technology lets you start work on one device and pick it up on another without effort. This works with important apps like Mail, Safari, Maps, Messages, Reminders, Calendar, and Contacts ^[1].

Apple’s ecosystem shows this smooth combination through features that keep your apps in sync across devices. Universal Clipboard lets you copy content on one device and paste it on another – text, images, photos, or videos ^[1]. You can create a presentation on your computer and edit it later on your tablet naturally.

How to Configure Device Ecosystem Integration

The setup of cross-device features needs careful planning. Here’s what you should know:

1. Device Requirements:
   • iOS 8 or later for mobile devices
   • OS X Yosemite or later for computers
   • All devices must use the same account
   • Wi-Fi and Bluetooth must be on ^[1]

Snapdragon Seamless now lets Android, Windows, and other systems find each other and share information as one system ^[3]. Mice and keyboards work smoothly across PCs, phones, and tablets. You can drag files and windows between different types of devices.

The Cross Device SDK makes these experiences simpler by combining various connection technologies into one toolkit ^[10]. Developers had to work separately with Bluetooth and Wi-Fi frameworks before. The SDK now handles these basic technologies and focuses on core functions including:

• Device discovery and authorization
• Secure connections and data transfers
• Multi-device sessions ^[10]

Limitations and Compatibility

These advances come with some limits. Android devices only work with mobile and tablet devices right now ^[10]. Apple’s ecosystem works with more devices:

• iPhones
• iPads
• Macs
• Apple Watch
• Apple TV
• Apple Vision Pro ^[1]

Data syncing brings its own challenges. High latency can break real-time processing and affect how well apps work ^[11]. Different manufacturers often use their own technologies, which makes full compatibility hard to achieve ^[11].

Manufacturers are creating new solutions to fix these issues. Qualcomm’s FastConnect 7900 improves device connections through:

• High Band Simultaneous Multi-Link Operation
• Wi-Fi ranging
• Bluetooth Channel Sounding
• Ultra Wideband technology ^[3]

These technologies help devices sense their surroundings better. Cross-device interactions happen naturally without manual input ^[3]. Extended display features can detect nearby screens and their position using Ultra Wideband while keeping fast connections between devices ^[3].

Cross-device functionality has a bright future ahead. Cloud-native apps use platforms like AWS, Google Cloud, and Microsoft Azure to scale better and ensure reliable data access ^[3]. This makes real-time data syncing across devices easier while reducing the need for extensive local infrastructure.

Adaptive Display Technology

_{Image Source: Yahoo}

Smartphone displays have seen amazing advances with smart features that adapt to how we view and use our phones. These smart display technologies improve visual comfort and power efficiency through automatic adjustments.

Dynamic Refresh Rate Optimization

Latest smartphones use adaptive refresh rate technology that changes based on content and user interaction. Modern devices support refresh rates exceeding 120Hz which gives smoother scrolling and fluid animations ^[8]. LTPO technology lets displays lower their refresh rate to 10Hz while showing static content ^[12].

Android 15 phones boost refresh rates automatically during:

• Touch interactions and app launches
• Window transitions and animations
• Fling gestures with gradual rate reduction ^[13]

Ambient Color Temperature Adjustment

Premium smartphones now come with Correlated Color Temperature (CCT) adaptation. This feature adjusts display colors based on surrounding light. Screen colors match environmental lighting to create a natural viewing experience ^[14].

Different manufacturers take unique approaches to color temperature adaptation. Research on flagship devices shows they maintain CCT above 5000K, even in warm lighting. The Vivo X100 Pro adapts up to 9000K which gives smooth viewing in different lighting conditions ^[14].

Reducing Eye Strain with Smart Display Features

Manufacturers have added several eye care technologies to reduce vision problems:

1. Blue Light Filtering: Cuts down high-energy blue-violet light in the 415-455nm band
2. Flicker-Free Technology: Smart dynamic backlight adjustment reduces screen flicker
3. Anti-Glare Surfaces: Matte finishing helps scatter reflected light ^[15]

Brightness Intelligence Technology adjusts screen brightness and color temperature based on surroundings. Night protection features also control minimum brightness levels for late-night use ^[16].

Battery Savings from Display Optimization

Display optimization greatly affects battery life in several ways. OLED displays can dim or turn off individual pixels showing dark content ^[5]. Dark mode on phones with OLED screens saves power since fewer pixels need light.

Auto-brightness makes the screen more visible while saving battery power by adjusting brightness levels. Light sensors detect surrounding conditions to ensure clear visibility without wasting power ^[7].

New iPhones use Always-On display at a low 1Hz refresh rate to save power. The screen gets darker automatically when the device sits in a pocket or faces down ^[6]. These smart optimizations extend battery life while keeping the user experience smooth.

Smart display features give users unique control over visual comfort and power efficiency. Display technology keeps evolving and users get better adaptations to their viewing habits and surroundings.

Enhanced Battery Health Management

_{Image Source: Yahoo}

AI-powered systems have revolutionized battery management by learning your usage patterns to maximize device longevity. Your smartphones now offer unprecedented control over battery health and performance through intelligent algorithms and advanced monitoring tools.

AI-Driven Charging Patterns

Your smartphone uses sophisticated charging algorithms that adapt to your daily routines. These systems watch how you charge your device and adjust power delivery. To name just one example, when you charge overnight, your phone slows down charging at 80% and finishes just before you wake up ^[17]. This smart approach prevents overcharging and extends your battery’s life.

Studies show that AI-driven battery optimization can boost battery life by up to 50% [link_1] ^[18]. The system does this by:

• Looking at your charging cycles and usage patterns
• Changing power input based on battery temperature
• Using smart charging protocols to prevent overcharging
• Adjusting charging speed based on immediate conditions

Background Process Optimization

Your device’s AI algorithms manage background processes to cut down unnecessary power use. The system spots power-hungry apps and tweaks their background activity based on how you use them ^[17]. Constant analysis helps your device improve battery efficiency by up to 20% [link_2] ^[18].

Smart batteries talk directly to devices and provide immediate performance data while adjusting power output to meet specific needs ^[18]. This two-way communication leads to precise power management and prevents unnecessary battery drain.

Battery Lifespan Extension Settings

Manufacturers have built several key features to extend battery life:

1. Adaptive Battery Management: Your device learns behavior patterns to distribute power efficiently ^[19]
2. Temperature Control: Keeps charging temperatures just right to prevent wear
3. Smart Power Distribution: Spreads energy use across apps and hardware
4. Predictive Maintenance: Spots potential battery problems before they become serious

Research proves lithium-ion batteries work best between 50-80% charge ^[20]. Modern devices include settings that limit maximum charge levels and optimize charging speeds based on your habits.

Monitoring Battery Health Metrics

Advanced diagnostic tools in your smartphone give detailed information about battery health. These metrics show:

• Your current battery capacity versus original specs
• How many times you’ve charged and how efficient it is
• Temperature during charging and use
• Power consumption analysis in real time

The system tracks battery temperature, usage patterns, and charging habits continuously ^[21]. This data helps predict your battery’s end-of-life while maintaining valuable insights ^[18]. StoreDot researchers have created AI systems that can tell when a battery needs replacement by studying results from various battery-cell chemistry experiments ^[18].

New developments include self-healing batteries that fix minor damage and keep working even after wear ^[18]. On top of that, manufacturers are working on AI-driven rapid charging methods that speed up charging without hurting battery health ^[18].

These advanced features help your smartphone maintain peak battery performance while extending its life. AI integration with battery management marks a huge step forward in making mobile devices last longer and work better.

Spatial Audio Personalization

_{Image Source: Miquido}

Personalized audio brings a revolutionary feature to modern smartphones. It creates tailored sound experiences based on your unique hearing characteristics. Your device uses advanced algorithms and spatial processing to deliver immersive audio that adapts to your ear structure.

Creating Your Custom Audio Profile

Your phone uses a sophisticated scanning process to map your ear geometry. The TrueDepth camera captures detailed measurements of your face and ear structure ^[22]. This simple process requires:

1. Front view capture from 12 inches away
2. Right ear scan at 45-degree angle
3. Left ear scan with corresponding head movement ^[22]

Your device processes this data locally and creates an encrypted personal profile that syncs across devices ^[22]. The system keeps your data secure. No images are stored, and the profile uses end-to-end encryption when syncing through iCloud ^[23].

App-Specific Sound Optimization

Modern smartphones let you customize audio settings for different applications. The device analyzes over 100 unique identifiers in speech patterns to optimize audio output ^[4]. This technology applies specific filters that adjust:

• Frequencies based on ear structure
• Pace and timing of sound reception
• Directional audio cues for spatial awareness ^[4]

Apple Music, Netflix, and Disney+ support these spatial audio features ^[4]. Other services without official spatial audio support still benefit from your personalized profile. You’ll experience improved sound staging that creates a better listening experience ^[4].

When to Use Spatial Audio Features

Spatial audio works best in scenarios where immersive sound adds value. The technology shines with content mixed in surround sound formats like 5.1, 7.1, or Dolby Atmos ^[4]. The system creates a dynamic soundscape that changes as you move, making sound seem to come from multiple directions ^[4].

You’ll get the best results with:

• Movies and TV shows with multichannel audio
• Music mixed for spatial audio
• Gaming applications needing precise audio positioning ^[24]

The technology uses sophisticated processing that copies how we naturally hear sounds in physical space ^[24]. Precise sound placement creates an immersive environment beyond traditional stereo separation ^[24].

You can delete or adjust your personalized profile anytime through device settings ^[23]. The feature currently supports AirPods Pro, AirPods Max, and select Beats models ^[22]. Manufacturers continue to expand compatibility across different platforms and devices, making personalized spatial audio more available.

Hidden Camera Capabilities

_{Image Source: YouTube}

Smartphones now capture and process images in ways that were once possible only with professional cameras. Smart algorithms and AI processing help these devices take photos that are way better than what traditional smartphone cameras could do.

Computational Photography Modes

Modern smartphones use software algorithms to improve image quality by capturing multiple exposures. Traditional photography depends on optical processes, but computational methods can process images in completely new ways ^[2]. Smart AI improvements help today’s devices perform better in all types of lighting conditions ^[9].

The Video Boost feature, which arrived recently, lets users improve their videos using cloud processing. The system balances lighting, makes HDR better, sharpens footage, and keeps it steady after processing ^[25]. This technology creates two video versions – a smaller file you can edit on your phone and a larger one processed by AI algorithms ^[25].

Advanced Night Photography Settings

Night photography has become much better thanks to computational techniques. The system takes several images at different exposures and combines them to cut down noise and bring out more detail ^[2]. Here’s how to get the best results in low light:

• Set ISO between 1600-3200 to get clear night shots ^[26]
• Use slower shutter speeds when it’s dark ^[26]
• Turn on Night mode to let the camera adjust exposure automatically ^[27]

The Google Pixel 9 Pro takes great night photos by keeping exposure low while protecting bright areas effectively ^[3]. The OnePlus 13 does an excellent job preserving shadow details and reducing noise ^[3].

Video Enhancement Features

Video capabilities have reached new heights. Phones now support features like:

1. 4K recording at 120fps with ProRes HQ support ^[3]
2. Log profile recording to get better dynamic range ^[3]
3. Live low-light video enhancement up to 67 fps in 4K resolution ^[28]

The VLight algorithm makes low-light enhancement simple with a single parameter that works like a custom brightness-boosting curve. Your phone can enhance videos in real-time without needing external processing ^[28].

Professional Controls You Didn’t Know Existed

Today’s smartphones come packed with pro-grade controls that most people don’t know about. Pro mode lets you adjust:

• Shutter speed from 30 seconds to 1/8,000 of a second ^[29]
• ISO sensitivity with noise reduction ^[29]
• White balance through presets or Kelvin temperature ^[29]
• Light metering including frame average, center-weighted, and spot metering ^[29]

The Samsung Galaxy S25 Ultra brings new features like pre-recording in Single Take mode that captures moments before you press the shutter. You can also record 4K video with any two cameras at once and shoot in flat LOG format ^[30].

RAW format gives you more flexibility when editing by saving uncompressed information ^[11]. This format keeps more detail than compressed ones like PNG and JPG, which helps you adjust contrast, brightness, and white balance better ^[11].

Combining computational photography with traditional camera controls gives users powerful tools for mobile photography. These features make professional-quality imaging available to anyone with a smartphone ^[2]. As technology grows, mobile photography keeps expanding what’s possible with a device that fits in your pocket.

Comparison Table

Feature	Key Functionality	Main Benefits	Setup Requirements	Privacy/Security Aspects
AI-Powered Context Awareness	Analyzes behavior patterns to predict user needs	Smart text suggestions, app preloading, weather and commute updates	Enable predictive text, allow auto-spacing and auto-punctuation	On-device processing, Private Cloud Compute, Secure Enclave protection
Advanced Biometric Authentication	Multi-layer authentication uses biological and behavioral characteristics	Full-screen fingerprint sensing, voice pattern recognition, behavior analysis	Configure continuous authentication, voice patterns, behavior analysis	Templates stored as proprietary representations, tokenization for sensitive data
Cross-Device Continuity	Keeps app states in sync between devices	Universal clipboard, shared app states, access files across devices	iOS 8+ or equivalent, same account sign-in, Wi-Fi/Bluetooth enabled	Secure connections for data transfers, device authorization required
Adaptive Display Technology	Adjusts display settings based on conditions	Dynamic refresh rates, color temperature adjustment, less eye strain	Enable auto-brightness, configure refresh rate settings	Not mentioned
Battery Health Management	AI-powered battery optimization and monitoring	Battery life improved by 50%, smart charging patterns	Enable adaptive battery management, configure charging limits	Encrypted battery health data monitoring
Spatial Audio Personalization	Creates custom audio profiles using ear geometry	Immersive sound quality, optimized app-specific audio	TrueDepth camera scan of face/ears, compatible headphones	End-to-end encryption for profiles, on-device processing
Hidden Camera Capabilities	Advanced computational photography features	Better night photos, video boost, professional controls	Enable specific modes (Pro, Night mode), configure ISO/exposure settings	Not mentioned

Conclusion

My years of testing smartphones and their evolving capabilities have shown that these seven features barely scratch the surface. Each advancement, from AI-powered context awareness to computational photography, makes our devices more user-friendly and tailored to each user.

The features work best when users configure them properly – this is something I’ve learned through extensive testing. Smart battery management substantially extends device life, and biometric authentication layers provide reliable security without compromising convenience. Adaptive displays naturally adjust to different environments, while spatial audio creates immersive experiences that match your unique hearing profile.

Most users overlook these capabilities that can change their daily smartphone interactions. You can find detailed guides and regular updates about the latest smartphone features at vorelia.com. I share comprehensive explanations based on my ongoing device testing and research there.

Note that your smartphone packs more power than you might think. Explore these hidden features and you could find capabilities that add even more value to your daily life.

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FAQs

Q1. How does AI-powered context awareness work on smartphones? AI-powered context awareness analyzes your behavior patterns and anticipates your needs. It learns from your interactions to provide predictive text suggestions, smart app loading, and personalized updates like weather forecasts and commute times based on your location and habits.

Q2. What are the latest advancements in biometric authentication for smartphones? Modern smartphones now use multi-layer biometric authentication, including full-screen fingerprint sensing, voice pattern recognition, and behavioral analysis. These features work together to provide enhanced security while maintaining user convenience.

Q3. How can I set up cross-device continuity features on my smartphone? To set up cross-device continuity, ensure all your devices are running compatible operating systems (iOS 8+ or equivalent), signed into the same account, and have Wi-Fi and Bluetooth enabled. This allows for features like universal clipboard and seamless app state transitions across devices.

Q4. What are the benefits of adaptive display technology in smartphones? Adaptive display technology automatically adjusts settings like refresh rate and color temperature based on your environment and usage. This results in smoother scrolling, reduced eye strain, and improved battery life by optimizing display performance for different conditions.

Q5. How does spatial audio personalization enhance the listening experience? Spatial audio personalization creates a custom audio profile based on your ear geometry using your device’s camera. This tailors the audio output to your unique hearing characteristics, resulting in a more immersive and natural sound experience across various apps and content types.

References

[1] – https://support.apple.com/en-us/108046
[2] – https://www.picturecorrect.com/understanding-computational-photography-in-smartphones/
[3] – https://petapixel.com/2025/03/15/which-smartphone-delivers-the-best-photos-in-2025/
[4] – https://www.miquido.com/blog/what-is-personalized-spatial-audio/
[5] – https://www.zdnet.com/article/12-android-phone-settings-you-should-change-to-dramatically-increase-battery-life/
[6] – https://support.apple.com/en-us/109351
[7] – https://www.lenovo.com/us/en/glossary/how-to-turn-off-auto-brightness-on-pc/?srsltid=AfmBOorUcUFtLmEOw3xODcMa-nBouvPmN8GKMbT9FlaMB6ls7by6fAsm
[8] – https://www.simplymac.com/tech/new-features-coming-to-mobile-phones-in-2025
[9] – https://thefixsolutions.com/top-features-to-expect-in-2025-smartphones/
[10] – https://developer.android.com/guide/topics/connectivity/cross-device-sdk/overview
[11] – https://www.samsung.com/levant/explore/photography/5-tips-to-master-night-photography/
[12] – https://www.androidpolice.com/smartphone-refresh-rate-explainer/
[13] – https://developer.android.com/develop/ui/views/animations/adaptive-refresh-rate
[14] – https://www.dxomark.com/color-adjustment-technology-a-lack-of-consensus-in-the-smartphone-industry/
[15] – https://www.asus.com/microsite/display/eye_care_technology/
[16] – https://www.benq.com/en-us/knowledge-center/knowledge/programming-monitor-for-eye-strain-reduction.html
[17] – https://www.linkedin.com/pulse/ai-smartphones-features-you-use-every-day-talha-haroon-zsg3f
[18] – https://www.visermark.com/post/ai-is-revolutionizing-smartphone-battery-life
[19] – https://www.tdworld.com/distributed-energy-resources/energy-storage/article/21283230/the-role-of-artificial-intelligence-in-optimizing-battery-performance
[20] – https://www.hmd.com/en_int/blog/9-tips-for-longer-battery-on-android
[21] – https://medium.com/@thanuja.kj/the-impact-of-ai-on-smartphone-battery-efficiency-and-foldable-phones-a-comprehensive-guide-for-058acf79c6ef
[22] – https://support.apple.com/en-us/102596
[23] – https://www.apple.com/legal/privacy/data/en/personalized-spatial-audio/
[24] – https://www.dolby.com/experience/home-entertainment/articles/what-is-spatial-audio/
[25] – https://www.phonearena.com/news/google-always-on-video-boost-pixel_id167549
[26] – https://dougashphotography.com/night-sky-photography-with-your-phone/
[27] – https://forum.videotron.com/blog/the-blog/taking-photos-at-night-with-a-cell-phone-6-tips-for-success/46758
[28] – https://link.springer.com/article/10.1007/s11554-024-01532-7
[29] – https://www.gadgets360.com/mobiles/features/pro-manual-camera-mode-android-how-to-use-features-2227915
[30] – https://samsungmagazine.eu/en/2025/02/11/pet-skrytych-fotografickych-funkci-galaxy-s25-ultra-o-kterych-byste-meli-vedet/

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