Apple’s iOS 26 Beta 2 brings a plethora of exciting features and enhancements to the table. Here’s a detailed breakdown:
Design Revamp: Liquid Glass
Overview: The Liquid Glass interface is a major visual overhaul, providing a seamless user experience with a clean and intuitive design.
Key Features: System-wide visuals have been redesigned, including the Lock Screen, Home Screen, Control Center, and app icons, prioritizing content clarity.
Customization: Users can choose between light and dark themes, color-tinted icons, and a streamlined aesthetic.
Enhanced Apps
Phone App:
Hold Assist: Notifies users when a live agent is available during support calls.
Call Management: Improved tools for filtering unwanted calls.
Messages App:
Poll Creation: Users can create polls in chats, including group chats.
Customizable Chat Backgrounds: Personalize your conversations.
Apple Music:
AutoMix: Seamless transitions between songs.
Lyrics Translation & Pronunciation: Enjoy lyrics in your preferred language.
Auto-Pin Favorite Songs: Quickly access your favorite tunes.
Live Radio Widget: Tune in to your favorite radio stations.
Other Notable Features
Siri Upgrades: More contextually aware and natural-sounding Siri with improved on-screen interaction.
Password Manager: A dedicated Passwords app for centralized credential management.
Wallet App: Track your online orders with automatic tracking information from the Mail app.
Safari Updates: Relocated tab button, “Close Tab” option, and back and forward buttons.
Journaling App: Supports iCloud sync on iPads.
Low Power Mode: Updated description provides more insight into its functionality.¹ ²
Availability and Compatibility
Developer Beta: Available now for registered developers.
Public Beta: Expected to launch in early July 2025.
Final Release: Anticipated to ship with the iPhone 17 series in mid-September 2025.
Goal-line technology (GLT) uses a combination of high-speed cameras and sometimes magnetic field sensors to determine if a ball has completely crossed the goal line. When the ball’s position indicates it has crossed the line, a signal is sent to the match referee’s watch, providing a clear “goal” or “no goal” indication within a second.
Goal Line Technology
The speed at which a football travels when kicked by a modern professional football player has been measured; the average speed is around 60 mph. However, a real sharpshooter can propel the ball up to and over 80 mph; speeds of over 100 mph have been recorded by a rare few (Lisbon’s Brazilian left-back, Ronny Heberson leads the pack with a goal-smashing kick of 131.82 mph taken in 2006). This speed means that during a penalty kick, the ball will reach the goal line in half a second (500 milliseconds) – blink and you miss it.
A goal is awarded when the ‘whole’ ball passes over the goal line, between the goalposts, and under the crossbar. If the ball does not ‘fully’ cross the plane created by the goalposts and crossbar, a goal is not awarded.
When you consider that the total duration of an eye blink is around 200 milliseconds, is the referee or linesman always going to see a ball travelling so swiftly, let alone fully crossing that line so that a goal can be awarded?
The final decision to award a goal is down to the referee. Throughout the history of the game, there have been controversial goal award decisions, and those few wrong decisions can change the whole course of tournaments and competitions. Just ask Frank Lampard, his goal was wrongly disallowed against Germany at the 2010 World Cup in South Africa possibly costing England their match.
In recent times, however, modern technology has come to the rescue – computers and microprocessors can react in microseconds – thousands of times quicker than a referee…and they don’t blink!
Today we have Goal Line Technology (GLT), a system that helps the referee to get that decision right when it matters the most.
The technology required for GLT has been available for over 20 years. Using camera-based technology, it was originally developed and used for sports such as cricket and tennis.
In 2006, the International Football Association Board (IFAB) permitted tests to be carried out at matches during the 2006/2007 football season. These tests proved successful, but, disappointingly, in 2008, the IFAB ruled that GLT could not be used.
However, following some crucial decision making during the 2010 World Cup, this ruling was revisited. And, in 2012, following international testing, the IFAB decided that GLT could be introduced into football.
The uptake on this new system was rapid, and GLT systems are now in use worldwide. Some of these systems are expensive, and so they are only found at Premier league and association grounds and those used during major international competitions.
There are two main makes of GLT – camera-based and magnetic – available and accepted by FIFA as being fit for use.
Camera-Based
This system uses computer-linked high-speed cameras. Generally, there are fourteen cameras in total, with seven focused on the goalmouth at either end of the pitch. The function of each camera is to track the football and monitor whether it crosses the goal line under a variety of conditions. The images from each camera are combined to form a very accurate 3D representation of the path of the football. At the point when the ‘whole’ ball crosses the goal-line, a signal is generated by the system computer. This signal is transmitted to the referee’s watch to indicate whether a goal can be awarded. The whole process from goal line to watch all takes place in less than one second – a far cry from the stoppage time usually wasted without the technology.
This camera-based system is so refined that it is unaffected by electrical interference. It can recognise the ball even if it is partly obscured, and it is not affected by poor visibility due to the weather. It can generate images with the players removed for clarity, and it can produce action replays within 10 seconds.
The British invented Hawkeye system and the German Goal Control system are currently FIFA approved brands.
Magnetic Field
Two additional GLT systems, approved by FIFA and using low-frequency magnetic fields in and around the goal, are GoalRef and Carios – both German-owned.
Both are radio-based systems that use a magnetic field to detect when a goal can be awarded.
At the point when the ball crosses the goal-line, the goal mouth magnetic field is disturbed. A signal is generated and transmitted to the system computer, which in turn transmits a signal to the referee’s watch enabling the ‘goal’ allowed or disallowed. The whole process all takes place in less than one second.
The magnetic field is generated either by underground cables and devices installed in the goal frame or via specifically located antennas. The balls used with this system both contain passive electronic circuits – players have confirmed that this does not affect the way that the ball performs. The signals generated by either system are encrypted to prevent unauthorized access or tampering.
The Way Forward?
Goal-line technology is now in fairly common use. Along with Video Assistant Referee (VAR) systems, the decisions being made in football are extremely fair and, generally, accurate.
However, is all this technology really the way that fans want the game to go? Or, are the inaccuracies and the debatable referee decisions all a part of the game that people enjoy to watch? Does the cost of these systems inhibit its use at the grassroots level? The debate rages on for some, but GLT was used during the 2014 and 2018 World Cup tournaments, most top leagues around the world now use it, and it will probably be used during the 2022 World Cup, so it is more than likely here to stay.
If you want to find out more about assisted play, check out our review ofVAR Technology.
Advanced Driver Assistance Systems (ADAS): Technical Overview and Functionality Advanced Driver Assistance Systems (ADAS) utilize a sophisticated combination of sensors, cameras, radar, lidar, and onboard computers to enhance road safety and driving experiences. Here’s an in-depth look at how ADAS works:
Key Components and Technologies
Sensor Suite: Radar, lidar, cameras, and ultrasonic sensors detect obstacles and monitor the vehicle’s surroundings.
Computer Vision: Cameras read lanes, signs, and traffic, providing visual data for the system.
Sensor Fusion: Combines input from different sensors to build a comprehensive view of the surroundings.
ADAS Functionality
Data Collection and Processing: Sensors and cameras gather data, which is then processed by onboard computers in real-time.
Decision-Making and Control: ADAS decides whether to warn the driver or take control, such as braking or steering corrections.
Advanced ADAS Features
Adaptive Cruise Control (ACC): Utilizes radar and cameras to maintain a safe distance from the vehicle ahead.
Lane Centering Assist: Provides precise steering input to keep the vehicle centered in its lane.
Automatic Emergency Braking (AEB): Detects potential collisions and automatically applies the brakes.
Benefits and Implications
Enhanced Safety: Reduces human error, a major cause of accidents.
Improved Driver Experience: Assists drivers in various driving scenarios, reducing stress and fatigue.
Future Development: ADAS lays the groundwork for fully autonomous vehicles
The Motorola Razr 60 Ultra review highlights the device’s features, performance, and overall user experience. Here’s a detailed breakdown:
Design and Display
Flip Phone Design: The Motorola Razr 60 Ultra features a sleek and compact flip phone design with a 6.7-inch OLED display.
Durability: The device has a robust build quality with a stainless steel frame and a durable glass display.
Performance
Processor: The Motorola Razr 60 Ultra is powered by a large battery and a high-performance processor, providing smooth performance and efficient battery life.
RAM and Storage: The device comes with ample RAM and storage options, ensuring seamless multitasking and storage for apps, photos, and videos.
Camera
Dual Cameras: The Motorola Razr 60 Ultra features dual cameras with advanced sensors, offering high-quality photography and videography capabilities.
Camera Features: The device includes features like optical zoom, portrait mode, and low-light enhancement.
Software
Android Operating System: The Motorola Razr 60 Ultra runs on the latest Android operating system, providing a seamless and intuitive user experience.
Software Features: The device includes features like gesture navigation, AI-powered assistants, and timely software updates.
Battery Life
Large Battery: The Motorola Razr 60 Ultra has a large battery that provides all-day battery life, depending on usage patterns.
Fast Charging: The device supports fast charging, allowing users to quickly recharge their battery.
Additional Features
5G Connectivity: The Motorola Razr 60 Ultra supports 5G connectivity, providing fast data speeds and seamless online experiences.
Water Resistance: The device has a water-resistant design, protecting it from accidental splashes and spills.
The Motorola Razr 60 Ultra is a premium flip phone that offers a unique blend of style, performance, and features. With its sleek design, high-quality display, and advanced camera capabilities, it’s an attractive option for those looking for a stylish and functional smartphone
The top advances in gaming technology in 2025 are expected to include
Key Developments
Artificial Intelligence (AI): Enhanced AI capabilities for more realistic NPC behavior, dynamic environments, and personalized gaming experiences.
Virtual Reality (VR) and Augmented Reality (AR): Improved VR/AR technology for more immersive and interactive gaming experiences.
Cloud Gaming: Advancements in cloud gaming infrastructure for faster, more reliable, and more accessible gaming.
Graphics Processing Units (GPUs): Next-generation GPUs with improved performance, power efficiency, and features like ray tracing and AI-enhanced graphics.
Cross-Platform Play: Increased support for cross-platform play, allowing gamers to play with friends across different devices and platforms.
Emerging Trends
Game Development Tools: Advanced game development tools and engines that enable more efficient and effective game creation.
Esports and Competitive Gaming: Continued growth and innovation in esports, including new games, leagues, and technologies.
Gaming Accessibility: Increased focus on gaming accessibility, including features like text-to-speech, subtitles, and customizable controls.
These advances are expected to shape the gaming industry in 2025 and beyond, enabling more immersive, interactive, and accessible gaming experiences.
Microsoft and AMD have partnered in a strategic, multi-year agreement to co-engineer custom silicon for the next generation of Xbox consoles, handhelds, gaming PCs, and accessories. This collaboration leverages AMD’s expertise in high-performance computing and graphics, combined with Microsoft’s investments in AI, DirectX, and Windows.¹
Key Features of the Partnership:
Custom AMD Silicon: Designed specifically for a lineup of devices, including traditional consoles, portable gaming handhelds, and cloud-based platforms.
AI-Powered Gaming: The next-gen AMD chips will offer built-in AI capabilities, enhancing visual quality, immersive gameplay, and responsiveness.
Unified Ecosystem: A platform strategy that enables a seamless gaming experience across devices, with full compatibility with existing Xbox game libraries.
Open Marketplace: The next-gen Xbox will not be locked to a single store, allowing users to access multiple game stores, including Steam and GOG.
WhatsApp has rolled out several new features to enhance user experience. Here’s a rundown of the updates:
Sticker Updates:
You can now customize your status updates with various types of stickers, including:
Avatar Stickers: If you’ve created an avatar, you can share custom avatar stickers on your status.
Music Stickers: Add music to your status updates by selecting a song and customizing the sticker.
Photo Stickers: Decorate your photo updates with custom stickers made from your photos (available on Android).
How to Add Stickers to Status:
Tap Updates > “camera” icon.
Select a photo or video, or tap Camera to take a new one.
Tap “sticker” icon and choose a sticker.
Tap and hold the sticker to position and resize it.
Tap “send” icon to share your status.
Music Stickers:
Tap Updates > “camera” icon.
Select a photo or video, or tap Camera to take a new one.
Tap “music” icon to open the music browser.
Search for music or browse popular songs.
Tap “play” icon to preview or “add” icon to add to status.
Customize the sticker and tap Done.
Tap “send” icon to share.
Other Updates:
While the provided information doesn’t detail updates on calls and channels, the sticker and status features are part of WhatsApp’s efforts to enhance user expression and engagement. Keep your WhatsApp updated to access new features as they’re rolled out
Artificial intelligence is transforming the job market, creating new opportunities and challenges. Here’s what’s current:
Job Creation and Transformation
AI is expected to create 69 million new jobs worldwide by 2028, while potentially displacing others, according to the World Economic Forum.
New roles emerging due to AI include AI “trainers,” “explainers,” and “sustainers,” such as AI safety officers, ethicists, and user experience designers.
Industries like healthcare and education are likely to see growth, with a projected 10% increase in university and higher education teachers.
Impact on Industries and Workers
92% of tech jobs are expected to undergo significant transformation due to AI, with entry-level and mid-level professionals at the forefront of this change.
AI may automate tasks equivalent to 300 million full-time jobs globally, but could also increase productivity and economic growth by 7%, according to Goldman Sachs.
Certain skills will become more valuable, such as AI literacy, data analytics, and prompt engineering, while others may become less relevant.
Preparing for the Future
Companies like Cisco, Google, IBM, and Intel are investing in training programs to upskill workers in AI and related technologies.
Developing soft skills like critical thinking, creativity, and interpersonal communication will be essential for workers to complement AI.
Embracing lifelong learning and adapting to new technologies will be crucial for professionals to stay ahead in the job market.
Panasonic’s groundbreaking launch at InfoComm marks a significant milestone in the audiovisual industry. The new brand identity and technology solutions showcase Panasonic’s commitment to innovation and customer-centricity.
The Big Reveal: Launch Highlights
Innovative AV Solutions: Panasonic introduces cutting-edge audiovisual technologies, enhancing collaboration, communication, and content creation.
New Brand Identity: The refreshed brand showcases Panasonic’s dedication to delivering exceptional AV experiences.
Industry Impact: Panasonic’s advancements are poised to transform the AV landscape, setting new standards for quality, reliability, and innovation.
InfoComm Significance: The launch at InfoComm underscores Panasonic’s commitment to engaging with industry professionals, showcasing solutions, and driving future advancements.
What to Expect: The new brand and technology solutions promise to:
Enhance collaboration and communication
Elevate content creation and presentation
Set new industry benchmarks for quality and innovation
Stay tuned for more updates on Panasonic’s innovative AV solutions and brand evolution!
Walmart’s groundbreaking achievement in drone delivery marks a significant milestone in the retail industry’s adoption of innovative logistics solutions. By leveraging drone technology, Walmart enhances its delivery capabilities, offering customers:
Walmart’s drone delivery technology is a game-changer in retail logistics, leveraging partnerships with companies like Wing and Zipline to enhance convenience and speed. Here’s how it works:
Drone Capabilities: Wing’s drones use a dual-propulsion system, combining vertical lift motors for takeoff and landing with separate cruise motors for long-range flights, allowing them to fly up to 6 miles from a store at speeds of 65 miles per hour.
Delivery Process: Drones hover over a customer’s home and lower the order to the ground on a cable, ensuring safe and efficient delivery.
Service Expansion: Walmart’s drone delivery service is now available in five new cities – Atlanta, Charlotte, Houston, Orlando, and Tampa – with over 100 stores participating. This expansion builds on existing operations in Northwest Arkansas and Dallas-Fort Worth.
Product Delivery: Customers can enjoy convenient access to a diverse range of products, featuring:
Groceries: Fresh fruit, eggs, ice cream, and pet food
Health and Wellness: Over-the-counter medicines, baby formula, and COVID-19 tests
Household Essentials: Various items for daily needs
In a strategic move, Walmart has partnered with two innovative firms to advance its drone delivery project and these include:
Wing: Walmart’s partner for drone delivery, providing advanced drone technology and logistics expertise.
Zipline: Building on its success, Walmart expands its partnership with Zipline, leveraging cutting-edge drone technology for quieter, faster, and more efficient deliveries.
