Published on September 26th, 2023
The unveiling of the iPhone 15 series has once again sparked excitement in the tech world, as Apple continues to push the boundaries of smartphone innovation.
With every new iPhone release, there’s a sense of anticipation, not just among Apple enthusiasts, but also among Android users who eagerly await the latest features and functionalities.
This time around, as we delve into the impressive offerings of the iPhone 15, it’s evident that some of these features may strike a chord of familiarity for Android users.
In the world of technology, borrowing ideas is a two-way street. While Apple has undoubtedly introduced some groundbreaking features with the iPhone 15, Android OEMs are not ones to be left behind.
They, too, have their own innovations to bring to the table, but there’s always room for inspiration from the competition.
As we explore the iPhone 15’s remarkable features, it’s only natural to wonder which of these Android manufacturers might consider adopting in their upcoming smartphone releases.
So, what are these iPhone 15 features that have caught our attention? In this article, we’ll take a closer look at five features from Apple’s latest offering that Android users might be eagerly anticipating on their own devices in the near future.
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From enhanced photography capabilities to advancements in performance and user experience, the iPhone 15 has a lot to offer, and Android enthusiasts have their own wish list of features they’d love to see integrated into their smartphones.
Apple has introduced an intriguing camera feature in the iPhone, allowing users to capture 24MP photos using a 48MP camera.
Interestingly, this isn’t achieved through the conventional method of pixel binning but rather by combining data from a high-resolution 48MP shot with a lower-resolution one, presumably at 12MP.
This 24MP capability strikes a balance between the pixel-binned 12MP photos and the full-fledged 48MP captures.
It’s a sweet spot for those looking to enhance detail and resolution without sacrificing storage space or intensive processing, making it an enticing proposition.
This approach may remind some of Samsung’s Adaptive Pixel technology, seen in their Galaxy Ultra phones.
Samsung combines data from a 108MP shot with a 12MP snap, but the result is a 12MP image optimized for low-light conditions, rather than offering a versatile intermediate resolution option.
Looking ahead, it would be exciting to see Android OEMs follow suit and provide similar functionality.
Offering users the ability to capture 24MP or similar images could be a welcome addition, striking that balance between detail and practicality in image storage and processing.
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Roadside Assistance via Satellite
Apple has introduced a unique satellite-related feature with the iPhone 15 series, allowing users to access roadside assistance in remote areas.
This function operates much like satellite SOS and enables users to select a predefined car issue (e.g., car won’t start, flat tire, low fuel/charge) and follow on-screen instructions to signal a satellite for assistance.
This feature offers a lifeline for those navigating remote stretches of road. Android users are keen to see a similar option integrated into their ecosystem for added convenience and safety during their travels.
Precision Finding For Friends
Apple has wholeheartedly embraced Ultra-wideband (UWB) connectivity, initially introducing it for AirTags but expanding its use across various applications.
At the iPhone 15 launch, Apple unveiled yet another intriguing UWB feature: the ability to locate your friends in real-world scenarios.
This innovation has sparked the idea that Google should consider implementing a similar feature on Android devices, even if not all Android phones currently support UWB technology.
The rationale behind this request is the practicality it offers in everyday scenarios, especially in crowded environments like markets, concerts, or bustling malls.
Being able to locate a friend quickly in such settings could prove immensely useful.
One challenge, however, lies in the fact that UWB technology is primarily available in higher-end Android phones.
Nevertheless, the hope is that UWB will become more accessible, eventually reaching lower-priced devices, making this friend-finding functionality a valuable addition to the Android platform.
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It’s a call for Google to explore the potential of UWB technology to enhance the user experience and address real-world scenarios where it can truly make a difference.
Apple has revealed that the iPhone 15 Pro and Pro Max will be the pioneers in smartphone technology by featuring Thread networking support.
Thread is the fundamental technology behind the Matter smart home standard, which suggests that the iPhone 15 Pro series is poised to seamlessly connect with future Matter-compatible devices.
Presently, there may not be immediate applications for having a smartphone equipped with Thread networking capabilities.
However, the potential for enhanced smart home integration and control in the future makes it an intriguing development.
Android users are also keen to see this support integrated into their devices, as it could simplify the process of connecting and managing smart home devices.
Fortunately, there are indications that Google is actively working towards bringing this feature to the Android platform, aligning with the growing trend towards connected and smarter homes.
Tetraprism Camera Design
While Apple has recently introduced folded zoom cameras, Android smartphones had already incorporated this feature back in 2019.
However, Apple opted for a different approach called the tetraprism camera design, unlike the periscope camera design commonly used by Android OEMs.
The distinction lies in the orientation of the camera sensor; periscope systems place it sideways, while Apple’s tetraprism system positions the camera sensor facing rearwards.
The sideways placement of the sensor in periscope designs often results in the use of smaller camera sensors unless the phone or camera bump is significantly thicker to accommodate a larger one.
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This limitation has led to many periscope cameras struggling with low-light photography, although there are exceptions.
Apple’s tetraprism design, being rear-facing, doesn’t encounter the same sensor size constraints. This allows for the integration of larger zoom sensors, promising better low-light performance.
The hope is that Android manufacturers will take note of this approach and consider implementing it in future Android smartphones, potentially enhancing their low-light photography capabilities.