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Google Pixel 8 vs. iPhone 15: did Google finally beat Apple?

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Renders of the Google Pixel 8 next to the Apple iPhone 15. — Digital Trends

Google has unveiled the Google Pixel 8 lineup at its Made by Google event in New York. Though there aren’t any drastic upgrades to the Pixel 8, Google made some smaller changes that are sure to be welcome among fans.

But Apple also just released the iPhone 15 lineup a month ago. So, if you’re in the market for a new smartphone, which one should you pick up? The Pixel 8 and iPhone 15 are both the baseline models for Google and Apple, respectively, so let’s take a closer look at these two phones.

Google Pixel 8 Event in 11 Minutes

Google Pixel 8 vs. iPhone 15: specs

	Google Pixel 8	Apple iPhone 15
Display	6.2-inch LTPS OLED Actua Display 1080 x 2400 resolution at 428 ppi 1,400 nits HDR brightness, 2,000 nits peak brightness	6.1-inch Super Retina XDR OLED Display 2556 x 1179 resolution at 460 ppi 1,600 nits HDR brightness, 2,000 nits peak brightness
Always-on display	Yes	No
Refresh rate	120Hz – 60Hz	60Hz
Colors	Obsidian, hazel, rose	Black, yellow, blue, green, pink
Storage and RAM	128GB/256GB 8GB RAM	128GB/256GB/512GB 6GB RAM
Processor	Tensor G3	A16 Bionic
Software	Android 14	iOS 17
Rear cameras	50MP main 12MP ultrawide	48MP main 12MP ultrawide
Front camera	10.5MP	12MP
Biometrics	Under-display fingerprint sensor Face Unlock	Face ID
Battery	4,575mAh	3,349mAh
Charging	27W wired 18W wireless with Google Pixel Stand 12W Qi-compatible wireless charging 4.5W reverse wireless	27W wired 15W MagSafe wireless charging 7.5W Qi-compatible wireless charging 4.5W reverse wired
USB-C	Yes	Yes
Price	From $699	From $799
Available from	Google Store	Apple

Google Pixel 8 vs. iPhone 15: design

The black Google Pixel 8, being held by a person wearing a sweater. — Google

On the surface, both the Google Pixel 8 and Apple’s iPhone 15 don’t look very different from their predecessors.

The Google Pixel 8 looks very much like the Google Pixel 7 that came before it. However, there are some minor changes. The Pixel 8 now has more rounded corners and symmetrical bezels, as well as a flat display. You’ll still have the traditional camera bar on the back with the metal finish, which houses the dual camera system. Google has a new satin frame enclosure with a polished back glass for the Pixel 8 (aka, the back is glossy). There are three beautiful colors for the Pixel 8: obsidian, hazel, and rose.

A green iPhone 15 on a green bench. — Christine Romero-Chan / Digital Trends

With Apple’s iPhone 15, it looks pretty similar to the iPhone 14. You still have the flat edges and diagonal dual camera layout, but that’s where the similarities mostly end. Previous base model iPhones had glossy glass on the back, but the iPhone 15 uses a new “color-infused” glass that now has a unique, matte finish. Since it’s matte, fingerprints are less likely to show up.

The iPhone 15 also has more rounded edges compared to its predecessor, which gives it a more ergonomic and comfortable feel in the hand. Apple also uses an aluminum frame that’s pretty resistant to fingerprints, and it also makes the phone quite lightweight. There are five color choices for the iPhone 15: black, yellow, blue, green, and pink. However, most of the colors are quite pale, with pink being the best of the bunch.

Both phones look great, but with more color options and a more practical matte back, we’re giving the iPhone 15 the win here.

Winner: iPhone 15

Google Pixel 8 vs. iPhone 15: display

Google Pixel 8 render against a pink background. — Google Pixel 8 Digital Trends

This year, Google actually made the display on the Pixel 8 a bit smaller than before. Previously, the Pixel 7 had a 6.3-inch display, but the Pixel 8 now has a 6.2-inch Actua LTPS OLED display with a 1080 x 2400 pixel resolution at 428 pixels per inch (ppi) and a 20:9 aspect ratio.

The Pixel 8 display also has a 120Hz refresh rate and reaches an HDR brightness of 1,400 nits and a peak brightness of up to 2,000 nits. The new Actua display yields 42% brighter levels than the previous Pixel 7.

The Google Pixel 8 also has an always-on display that features At a Glance and Now Playing. It uses Corning Gorilla Glass Victus as well.

A green iPhone 15 in hand showing home screen. — Christine Romero-Chan / Digital Trends

Apple’s iPhone 15 display is not quite as impressive, especially considering the price point. With the iPhone 15, you have a 6.1-inch Super Retina XDR OLED display with a 1179 x 2556 resolution, 19:5:9 aspect ratio, and 461 ppi. It reaches typical brightness at 1,000 nits, but can go up to 2,000 nits peak brightness outdoors. It also brings in the Dynamic Island from last year’s iPhone 14 Pro models, making it the new standard for the iPhone.

However, even though the iPhone 15 costs more than the Pixel 8, the refresh rate is only 60Hz, which is far below what the Pixel 8 (and most Android phones, for that matter) is capable of. Though the display features bright and rich colors with sharp text, scrolling won’t be as smooth, and it’s definitely noticeable if you’re used to a higher refresh rate. It also does not support an always-on display mode, which is something the Pixel 8 does offer.

Winner: Google Pixel 8

Google Pixel 8 vs. iPhone 15: software and performance

Joe Maring / Digital Trends

The Google Pixel 8 will ship with Android 14 out of the box, naturally. It also features Google’s new Tensor G3 chip and Titan M2 security coprocessor. The Pixel 8 also has 8GB RAM and either 128GB or 256GB of storage available.

With the Google Tensor G3, the machine learning model on the Google Pixel 8 is about 10x more complex than what was on the Google Pixel 6. Some specific features of Tensor G3 include the Pixel’s Call Screening feature that can detect and filter out spam calls, improved Clear Calling for high-definition and crystal clear phone calls, and Audio Magic Eraser, which can erase distracting sounds from your videos.

Google is also taking steps to future-proof its phones. The Pixel 8 will have Android 14 out of the box, and Google is promising OS and security updates for seven years. It will also release Feature Drops, which add helpful new features for the Pixel 8, every few months.

The display on a green iPhone 15. — Christine Romero-Chan / Digital Trends

Apple’s iPhone 15 comes with iOS 17. On the inside, it has the A16 Bionic that debuted last year with the iPhone 14 Pro models and has 6GB RAM. You have the option of 128GB, 256GB, or 512GB of storage.

The A16 Bionic is quite fast in terms of performance, and iOS 17 has been a solid performer. With iOS 17, you’ll have some new features like NameDrop, improved AirDrop, Standby mode, interactive widgets, Live Voicemail, and more. It may be a smaller update than previous years, but it does add a lot of quality-of-life improvements. Apple also tends to support its devices for around six years on average, so you can expect the iPhone 15 to last a while too.

Ultimately, which one is better really depends on whether you prefer iOS or Android overall. But if we had to pick a winner, the iPhone 15 takes it — at least for now. While the A16 Bionic is a proven chip with great performance across the board, it remains to be seen if Tensor G3 can seriously compete with it. Tensor G2 was riddled with efficiency and performance issues, and while those should be fixed for G3, we need to see for ourselves if that’s actually the case.

Winner: iPhone 15

Google Pixel 8 vs. iPhone 15: cameras

Someone holding up the pink Google Pixel 8, while also wearing a pink shirt. — Google

The Pixel 8 has a 50MP main camera and a 12MP ultrawide. The main camera also has an f/1.68 aperture, 82-degree field of view, and digital zoom up to 8x with optical 2x zoom. The ultrawide lens has an f/2.2 aperture and a 125.8-degree field of view. The dual camera setup also has a single-zone laser detect autofocus, a spectral and flicker sensor, and optical and electronic image stabilization on the wide lens.

The selfie camera on the Pixel 8 is 10.5MP with an f/2.2 aperture, fixed focus, and 95-degree ultrawide field of view.

The rear camera should also produce some quality video. You can get 4K recording at 24/30/60 frames per second (fps) or 1080p recording at 24/30/60 fps. The front camera is capable of 4K recording at 24/30/60 fps. Google also has a macro focus video mode, cinematic blur and pan, astrophotography time lapse, and more.

Google Pixels have had a solid reputation for taking great photos, and the Pixel 8 is no exception. The upgraded camera system with the Pixel 8 has advanced image processing that will bring out vivid colors and striking details. There is also now a new Macro Focus that lets you take even better macro images. Another new feature is Best Take, which will combine similar pictures into a single image where everyone looks their best.

A green iPhone 15 showing the camera and matte glass back. — Christine Romero-Chan / Digital Trends

On the iPhone 15, you also have a dual camera setup with a 48MP main and 12MP ultrawide. The main camera has an f/1.6 aperture, while the ultrawide has an f/2.4 aperture. Despite not having a telephoto lens, Apple made it possible to get 2x optical zoom with up to 10x digital zoom. For the selfie camera, the iPhone 15 has a 12MP lens with an f/1.9 aperture. The selfie camera also has autofocus, which you don’t get on the Pixel 8.

Apple has made some improvements in the camera quality this year with Smart HDR 5. Colors don’t appear as harsh or washed-out as in previous generations. There is also a new Auto Portrait feature for the entire iPhone 15 lineup. With Auto Portrait, as long as the camera detects a person or pet in focus, it automatically captures depth data even if you’re not in Portrait mode. When viewing the photo, you can toggle Portrait mode on or off as you please, and the feature even works for selfies too.

For video recording, Apple can be tough to beat. You have 4K recording at 24/25/30/60 fps or 1080p recording at 25/30/60 fps. The iPhone 15 also has a cinematic mode with shallow depth of field up to 4K HDR at 30 fps, HDR video recording with Dolby Vision up to 4K at 60 fps, and slo-mo video up to 1080p at 120/240 fps.

You get slightly more digital zoom and autofocus for the selfie camera on the iPhone 15. But the Pixel 8 has a slightly sharper 50MP main camera, and given Google’s track record, it should also provide excellent photographs. Until we’re able to put both cameras to the test, we’re calling this one a draw.

Winner: Tie

Google Pixel 8 vs. iPhone 15: battery and charging

Someone talking on the phone with the Google Pixel 8. — Google

The Pixel 8 has a 4,575mAh battery, and Google promises 24-hour battery life with up to 72-hour battery life with Extreme Battery Saver — the same claim it made last year for the Pixel 7. It uses USB-C for fast charging up to 27 watts, which results in a 50% charge in 30 minutes.

For wireless charging, the Pixel 8 uses Qi-compatible wireless chargers and can wirelessly charge up to 18W with the Google Pixel Stand accessory. For other wireless chargers, it will cap out at 12W speeds. You can also use the Pixel 8 to charge up other devices with Battery Share reverse wireless charging, which is around 4.5W.

A green iPhone 15 showing battery life. — Christine Romero-Chan / Digital Trends

Apple packed in a 3,349mAh battery cell in the iPhone 15. In our tests, this should get you through the day with moderate usage. It’s an improvement over the 3,279mAh battery of the iPhone 14, but not by much.

The iPhone 15 has finally ditched Lightning for USB-C, so you no longer need a proprietary cable to charge the iPhone. However, Apple did not make any improvements to the overall charging speed, as the iPhone 15 still charges around the same 20W as before, so again, you’re looking at a 50% charge in 30 minutes.

As far as wireless charging goes, the iPhone 15 still has 15W MagSafe wireless charging speeds and 7.5W with Qi-compatible charging pads. Apple did add reverse wired charging, so as long as you have a cable, you can charge up other devices at 4.5W speed.

We still need to test the Pixel 8’s battery for ourselves, but there’s a good chance it could come out ahead. It’s significantly larger than the battery capacity of the iPhone 15, and when you combine that with the convenience of reverse wireless charging, it’s enough to give it the win.

Winner: Google Pixel 8

Google Pixel 8 vs. iPhone 15: price and availability

A green iPhone 15 leaning on a lamp post. — Christine Romero-Chan / Digital Trends

The Pixel 8 starts at $699 for the 128GB model, which is a $100 increase from the Pixel 7. Google justifies the price increase with a new design, upgraded cameras, and the Tensor G3. The Pixel 8 comes in three colors: obsidian, hazel, and rose.

You can preorder the Pixel 8 now, and it will be widely available to the public on October 12.

The iPhone 15 starts at $799 for the 128GB version. It comes in five colors: black, yellow, blue, green, and pink. However, most of the colors are very light and pale, though pink is a notable standout. Apple launched the iPhone 15 on September 22, and you can purchase it right now.

Google Pixel 8 vs. iPhone 15: verdict

Two Google Pixel 8 phones lying next to each other on a table. — Google

If you’re looking to get the most bang for your buck with a base model flagship, then it’s hard to beat the Google Pixel 8. For just $699, despite being more than its predecessor, you’re getting a lot more features this year.

For one, the Pixel 8 now features a 120Hz display, which is a bump up from the 90Hz of the Pixel 7. Even though it’s slightly smaller at 6.2 inches, the refresh rate is also higher, and the peak brightness is doubled. The display on the Pixel 8 is also double what Apple offers with the iPhone 15, which is only 60Hz and $100 more, which is disappointing.

Though the cameras on both phones are similar, the Pixel 8 edges out the iPhone 15 just slightly with the 50MP main shooter versus the 48MP main camera. Though the iPhone 15 does have the Auto Portrait mode, the Pixel 8 should be capable of taking some great photos as well, especially with the new Best Take feature, which looks especially useful if you take a lot of group photos.

Battery life could also work in the Pixel 8’s favor, offering a 4,575mAh battery compared to the iPhone 15’s measly 3,349mAh. Charging speeds for both phones are about the same with USB-C, but the Pixel 8 is capable of faster wireless charging overall (unless you want to use MagSafe). The Pixel 8 is also more convenient for reverse wireless charging, whereas the iPhone 15 can reverse charge, but only if you have a cable with you.

What does this all mean for you? If you know you want an iPhone, the iPhone 15 is a tough phone to beat. It’s expertly designed, very performant, and a pure joy to use. But if you want an Android handset — or you’re simply looking for the best deal possible — the Google Pixel 8 drives a pretty hard bargain.

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Capturing the World from Above: Exploring the Art and Applications of Aerial Photography

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Aerial photography has revolutionized the way we see and understand our world. By capturing images from above, this unique form of photography offers a fresh perspective, unveiling breathtaking landscapes, revealing patterns, and providing valuable insights into various fields. In this article, we will delve into the art and applications of aerial photography, exploring its history, techniques, and impact on industries such as mapping, environmental monitoring, tourism, and filmmaking.

The History of Aerial Photography: The concept of capturing images from the air dates back to the mid-19th century, when the French photographer Gaspard-Félix Tournachon, known as Nadar, took the first documented aerial photograph in 1858. Since then, aerial photography has evolved significantly, progressing from manned balloon flights to the development of specialized aerial platforms like kites, pigeons, and eventually aircraft and drones. Technological advancements in cameras, lenses, and image stabilization have further enhanced the quality and versatility of aerial imagery.

Techniques and Equipment: Aerial photographers employ various techniques and equipment to capture stunning images from above. Traditional aerial photography involves using fixed-wing aircraft or helicopters equipped with high-resolution cameras. These platforms allow photographers to cover vast areas and capture detailed images with precision. However, the use of drones has democratized aerial photography, providing an affordable and accessible alternative. Drones equipped with cameras offer flexibility, maneuverability, and the ability to reach areas that were previously inaccessible, such as densely populated cities or remote natural landscapes.

Applications of Aerial Photography: 3.1 Mapping and Surveying: Aerial photography plays a vital role in cartography, surveying, and mapping. High-resolution aerial images are used to create accurate topographic maps, monitor land use changes, and aid in urban planning. These images provide valuable data for infrastructure development, disaster management, and environmental conservation efforts.

3.2 Environmental Monitoring: Aerial photography is instrumental in assessing and monitoring environmental conditions. It helps scientists and researchers study ecosystems, track changes in vegetation cover, detect deforestation, and monitor the impact of natural disasters. Aerial surveys also assist in wildlife conservation by tracking animal populations, migration patterns, and habitat changes.

3.3 Tourism and Marketing: Aerial photography has transformed the tourism industry by offering captivating images of destinations, landmarks, and natural wonders. These images entice travelers, allowing them to visualize their potential experiences and make informed decisions about their trips. Additionally, aerial photographs are extensively used in marketing campaigns by resorts, travel agencies, and hospitality businesses to showcase their offerings and attract visitors.

3.4 Filmmaking and Cinematography: In the world of filmmaking, aerial photography has revolutionized the way stories are told on the big screen. Aerial shots provide a cinematic perspective, capturing sweeping vistas, dynamic action sequences, and awe-inspiring aerial views. Filmmakers use aerial footage to enhance storytelling, evoke emotions, and create immersive visual experiences for the audience.

Ethical and Legal Considerations: While aerial photography offers remarkable opportunities, it also raises ethical and legal considerations. Privacy concerns arise when capturing images from above, and regulations regarding drone usage and airspace restrictions vary across countries. Striking a balance between capturing stunning visuals and respecting privacy rights is crucial, requiring responsible and ethical practices from aerial photographers.

Conclusion: Aerial photography has revolutionized the way we perceive the world, offering a unique perspective that was previously inaccessible. From its humble beginnings to the modern era of drones, aerial photography has become an essential tool in various industries, including mapping, environmental monitoring, tourism, and filmmaking. As technology continues to advance, the art of aerial photography will evolve, enabling us to capture even more stunning images and gain new insights into our planet. Embracing the potential of aerial photography while addressing ethical and legal considerations is essential for unlocking its full potential and ensuring a responsible and sustainable future for this remarkable art form.

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Samsung’s Galaxy A54 Already Feels Outdated Now That the Pixel 7a Is Out

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It’s a bit difficult to justify buying Samsung’s mid-tier Galaxy A54 when the Google Pixel 7a comes with the same processor as its flagship counterpart and has already proven it’s a better camera phone. But the Galaxy A54 starts at $450 compared to the 7a’s $500, boasting some of its flagship sibling’s marquee features at a slightly lower price point than Google’s budget option. Those features include a high-resolution display, excellent battery life, and a design that I felt was more comfortable than the Pixel’s rectangle angles and stark camera bar. The sacrifice is Samsung flagship-level camera quality, wireless charging, and storage space options.

Samsung’s Galaxy A54 doesn’t look like a budget phone

The trick to selling a mid-range device is to make sure it doesn’t look cheap. That’s what Google did with its A-series and what Samsung has decided to do going forward. Last year’s Galaxy A53 was dull if you were buying it in black. But at least this year’s Galaxy A54 appears styled after its flagship counterpart.

A photo of the Galaxy A54 — The Galaxy A54 is styled after its flagship counterparts.

The phone looks less “mid-range” than last year’s A53, even in black. Still, I love the periwinkle blue colorway on our review unit (it appears purple in Samsung’s official renders). It looks almost pearlescent in direct light, and it offers a chic aura that doesn’t immediately make you think this is a sub-$500 device. The A54’s build is durable, with the Galaxy A54 boasting tough glass on either side of the chassis, plus an IP67 water and dust resistance rating. There’s still some plastic on the outside frame, but you can barely tell at first glance.

The Galaxy A54’s 6.4-inch display is bold and beautiful. It’s bigger than the 6.1-inch screen you get on the Pixel 7a and way more saturated, but it’s that high-resolution Samsung AMOLED shining through with its smooth-scrolling 120Hz refresh rate that does it for me. The Pixel 7a display’s color temperature veers warmer, whereas Samsung’s displays are bluer, so video and graphics appear more vibrant. The maximum brightness for the A54 is 1,000 nits, and I found it just a smidge easier to read in direct sunlight than the Pixel 7a.

Samsung’s Exynos vs. Google’s Tensor

Samsung’s Galaxy A54 runs on Samsung-made hardware, but it’s not exactly in the same vein as Google’s homemade Tensor G2, which powers the Pixel 7a and its flagship siblings. The Exynos 1380 processor is Samsung’s latest mid-range, 8-core chipset. It benchmarks better than last year’s Galaxy A53 but remains hampered by 6GB of RAM. When jumping between apps, you can feel the A54’s relative choppiness. It’s not often, but it’s occasional enough that any sluggishness is more noticeable than on the Pixel 7a (although that phone’s 60Hz default refresh rate presents its own issues when it comes to smooth scrolling).

In battery tests, the Galaxy A54 outlasted its flagship brethren and the Google Pixel 7a. Its 5,000 mAh battery is larger than the 7a’s 4,385 mAh. It lasted about 18 hours and 48 minutes in our battery rundown test, compared to the Pixel 7a’s 16 hours and 11 minutes. It’s good to know Samsung’s mid-range can last a long time, especially since it’s pushing out a 120Hz refresh rate.

I’m bummed there isn’t wireless charging on the Galaxy A54, even if it is a sub-$500 phone. I have managed to build out a network of chargers around my home, where I live and work, and it’s imperative I can plop down a device to charge it. I can do that with Google’s Pixel 7a but not with the Galaxy A54.

Not the best phone camera for night shots

Two test shots with the Galaxy A54 during mid-day.

The Galaxy A54’s three-lens camera system includes a 50-MP primary camera with OIS and an aperture of f/1.8, a 12-MP ultrawide, and a 5-megapixel macro that seems unnecessary. I never thought to use it during my testing period and would have preferred telephoto glass for that third camera on the back for a little more optical zoom. The front-facing camera is 32-MP.

A Galaxy A54 nighttime landscape shot. — The Galaxy A54’s nighttime landscape shot.

Overall, the Galaxy A54’s camera system gets the job done if you’re outside and the weather is bright. Blues and reds are “punched up” with every photo, and you can use the on-screen camera controls to adjust the scene when it’s the golden hour. Just ensure you set the focus point in the right spot, or it could cost you a well-balanced photo. The maximum video recording resolution on the Galaxy A54 is 4K at 30 frames per second, which is smooth enough. It kept up with my kid panning the rows at a colorful car show, and the microphones were solid at mitigating the wind noise.

The Galaxy A54 will not get you astrophotography like a Google Pixel. Even with its dedicated night mode, it struggled to temper photos and capture enough light. And when it did produce an image in the dark, you can see the pixelation, as if evidence of an algorithmic struggle. That’s not as apparent in the Night Sight photos shot with the Pixel 7a. If it’s night skies and poorly-lit faces you find yourself snapping most, the Galaxy A54 should’t be your first pick.

Samsung’s version of Android is still good

Samsung’s Galaxy A54 runs Android 13 with OneUI 5.1. This gets you access to Samsung-exclusive features like Bixby Modes, widget stacks, and an improved screenshot manager. The company has promised four years of software updates for the Galaxy A54 and five years of security updates. That’s better than on the Pixel A-series, which gets four years of updates plus a sprinkling of quarterly Pixel-exclusive feature drops (though, like game loot, you never know what you’ll get and when).

I appreciate that Samsung’s Android 13 has adopted unified icons. They make the interface look less cartoony than its colorful stock icons. There’s also an option to dim the wallpaper when you’re in dark mode, which I like for my sensitive eyes.

The Galaxy A54 needs one more flagship feature

Samsung’s Galaxy A54 is $450 if you buy it unlocked. But if you need mmWave connectivity to access the 5G bandwidth you’re paying for, it’s $50 more, which is the variant I’d have to buy if I wanted to use this device on Verizon.

The Galaxy A54 needs one or two more flagship-like features to justify its cost relative to the Pixel 7a. It’d be nice to see Samsung add wireless charging or higher storage space tiers for folks who want a mid-ranger that will last them through all five years of its security updates. Concessions like that may not immediately translate to more units sold, but Samsung could establish itself as a mid-range manufacturer promoting longevity. That’s a point where it still has a leg up over the Pixel on the software side, so we’d love to see the hardware match.

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This $100 HD Drone Could Help Grow Your Photography Business

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Disclosure: Our goal is to feature products and services that we think you’ll find interesting and useful. If you purchase them, Entrepreneur may get a small share of the revenue from the sale from our commerce partners.

Even as couples hire fewer wedding vendors every year, photographers still remain a requirement for 94% of weddings. If you run your own freelance photography business, it might be time to cash in on some exciting new hardware and see how it can change your practice.

The Super Endurance Foldable Quadcopter is a beginner-friendly drone with two high-resolution cameras and a long flight time, and you can get one for $99.99 (reg. $149).

Take your photography business to new heights.

This foldable drone can sit with the rest of your photography gear until it’s time for some dynamic shots from above. Your purchase comes with two batteries for a total of up to 40 minutes flight time. Connect your phone for a first person view as seen through either front-facing or bottom-facing cameras.

The front-facing camera has a 120-degree wide-angle 1080p HD lens for high-resolution shots from afar. Populate your business’s website with dynamic shots of weddings, or expand to nature photography and use Follow Mode to get your drone to keep a steady distance from the remote. The bottom-facing camera could be an excellent resource for unique shots from straight above. Capture video of a married couple’s first dance or get a lay of the land so you can find somewhere to set up camp and wait for the perfect shot.

This drone has a multitude of control features that could make it an asset to professional photographers. Altitude hold mode commands your drone to keep steady. Capture long exposure shots, or use the multiple channels of control for an exciting roller coaster of a video. The one-key flip means you can send your drone rolling through the sky at a moment’s notice. You can also press a single key when it’s time for your quadcopter to come back to you and land.

Save on a beginner-friendly drone

Expand the services offered by your photography business.

For a limited time, get the Super Endurance Foldable Quadcopter Drone for Beginners on sale for $99.99 (reg. $149).

Prices subject to change.

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Unraveling Nature’s Complexity with Molecular Imaging

Image Credit: SpeedKingz/Shutterstock.com

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In this interview conducted at Pittcon 2023 in Philadelphia, Pennsylvania, we spoke to Ron Heeren, a speaker at the 2023 James L. Waters Symposium.

Please could you introduce yourself, and tell us about your personal background and what first attracted you to this field?

I am Ron Heeren, a distinguished professor of molecular imaging at Maastricht University in the Netherlands. I am also the director of the Maastricht MultiModal Molecular Imaging Institute. I was trained as a physicist, then developed a career in biochemistry, and now I am teaching in a medical center.

I have always wondered about the complexity of nature. One of my heroes, Richard Feynman, once said that you have to stop and think about it to really appreciate nature’s complexity; the inconceivable nature of nature.

I love that quote because it describes what triggered me to go into science: to satisfy my curiosity and understand the complexity of the world around me. The beauty of molecular imaging is that it does precisely that. It shows the inconceivable complexity of nature on a microscope slide.

What is secondary ion mass spectrometry?

The field I am engaging in is molecular imaging using mass spectrometry. There are essentially two ways of generating images with a mass spectrometer. The first is firing lasers at a surface to evaporate and ionize molecules, then analyzing them in the mass spectrometer. The second uses an ion beam, where a primary ion generates secondary ions that are then analyzed by a mass spectrometer.

The latter is the field of secondary ion mass spectrometry. In my work, we use both in concert because each technology has complementary features. The beauty of SIMS is that it can achieve spatial resolutions, such as no other technique in imaging mass spectrometry.

What is molecular imaging more broadly and what are its advantages?

Molecular imaging is a form of molecular photography where we take snapshots of the molecules on highly complex surfaces, such as tissue sections or biopsies of cancer patients, solar cells, or even leaves with microbes growing on them, and we try to visualize them.

Molecular imaging produces a map or a photograph of the spatial location of the molecules combined with the identity of the molecules themselves.

How can secondary ion mass spectrometry be employed in molecular imaging?

The beauty of secondary ion mass spectrometry is its incredible spatial resolution. These ion beams can be focused down to an extremely small spot, down to 50 nanometers. With molecular imaging, we can generate very small pixels, which provides an insight into what is going on in a single cell in the context of a complete tissue.

Essentially, SIMS brings very high spatial resolution. One added advantage is that we can study an individual single cell, layer by layer, and create a three-dimensional map of all molecules in that single cell.

In what medical fields can advances in digital molecular pathology have an impact?

Molecular imaging is entering digital pathology, a pathologist looking at digital images rather than through a microscope. As molecular imaging using mass spectrometers generates digital images, they can be shared easily with the pathologist.

They can be layered on top of the optical images that they already have. Now, the pathologist can augment how they look at the problem with molecular information. One example is detecting tumor cells in biopsy tissue. We can look at tissue sections from cartilage from damaged knees to understand the healing process and design new drugs.

We can look at pharmaceutical and animal models, where we observe where the drug ends up, how it is metabolized, and if it has an effect. These are all problems in a spatial context. These technologies can be applied with a gold star in biomedicine and pharmaceutical research.

How can innovative imaging technologies offer new insights into life’s complexity?

We see these images in more molecular detail as our mass spectrometers improve. Some of these molecular changes that trigger a disease process or that people want to interfere with when designing a new drug (to circumvent a disease) are related to minute molecular changes.

Modern mass spectrometers enable us to see things like isomeric species. This lipid has a double bond very close to the glycerol backbone or very far away, two very different structures. We can now visualize where that structure differs in a tissue or cell.

*Image Credit: Intothelight Photography/Shutterstock.com*

Mass spectrometry imaging can unravel this complexity at spatial and molecular detail levels. We can look at the identity of a molecule, where the molecule is in the cell, where that cell is in a piece of tissue, and where that tissue comes from in a patient. This enables the description of the entire translational imaging chain.

The 34th James L. Waters Symposium highlights the development, commercial construction, and recent advances in instrumentation and its applications. What are some of the recent advancements in secondary ion mass spectrometry?

The James L. Waters Symposium highlights instrumentation advances, such as targeted pathology, where people use labeled antibodies to observe targeted proteome processes in detail. Another technology presented that we worked on is using a detector from CERN in the molecular pathology field to accelerate the rate at which we can generate these images.

We would take perhaps a hundred to a thousand pixels per second on a typical commercial instrument. Each pixel corresponds to the mass spectrum. These new detectors from CERN enable the acquisition of a millions of pixels per second, so we are very close to achieving our current goal of scanning one tissue slide in one minute.

This will be perfectly in sync with the pathology workflow. Our molecular imaging technologies with SIMS and CERN would seamlessly fit into the digital pathology workflow.

How important is it to understand the history of the important contributions and cooperations in this field?

The importance of history cannot be stressed enough because we all stand on the shoulders of giants. One of the approaches that we are still working with was developed in the 1960s, but now we have leapfrogged away with all the new technologies that were not available back then, but the basic ideas remain the same.

These early ideas are now accelerating because of all the new available technologies. This symposium beautifully highlighted that as it brought together all these different elements: instrumentation, engineering, application in the clinic, targeted pathology, and the history on which it all was based.

What are the current challenges within the secondary ion mass spectrometry-based molecular imaging field?

One of our biggest challenges is the sheer amount of data we produce. One aspect of this is data storage, as we are obliged by law to keep patient data for up to 15 years. If I generate three terabytes in 10 minutes and store it for 10 or 15 years, then my storage bill will outweigh my electricity bill very quickly.

Researchers are looking into smarter solutions for storing data, maybe only acquiring relevant data to reduce the amount of data we generate.

*Image Credit: Gorodenkoff/Shutterstock.com*

The other aspect is what we do with the data and how we interpret it. We have a million spectra per second; no human mind could go through these spectra individually. We need more innovative artificial intelligence, machine learning, and neural network tools to explore the data and find the relevant information we seek to understand the complexity of health and disease.

How do you hope your work will help overcome some of the challenges you mentioned?

I am afraid my work will only worsen those two challenges because we are generating more data in a shorter time. However, while we are doing that, we also face these challenges. We have many bioinformaticians that we collaborate with to tackle those problems using machine learning and neural networks.

I think my team’s contribution to this field is that we see that to solve these challenges, we need researchers from many different disciplines. It is not just the tool we develop to solve data analysis challenges but how to collaborate across the boundaries of disciplines.

This is one thing that imaging mass spectrometry excels at because there is the fundamental side, instrumentation, application development, and data handling. They all have to come together. Our contribution is bringing these people together in the institute around the appropriate infrastructure to tackle these challenges.

What are you currently working on that you are particularly excited about?

One project we are excited about is single-cell imaging using our CERN-based detector to build libraries of molecular profiles of immune cells and then automatically recognize these cells in a piece of tissue.

This allows us to understand how the metabolic phenotype of an immune cell changes in the presence of a tumor and as a response to the distance to the tumor. So much more complexity is yet to be discovered and understood, which will significantly contribute to that.

About Professor Ron Heeran

Prof. Dr. Ron M.A. Heeren obtained a PhD degree in technical physics in 1992 at the University of Amsterdam on plasma-surface interactions. He started to work on molecular imaging instrumentation and its application as a research group leader at FOM-AMOLF, Amsterdam. In 2001, he became professor at the chemistry faculty of Utrecht University lecturing on the physical aspects of biomolecular mass spectrometry. In 2014 he started as distinguished professor and Limburg Chair at Maastricht University. He is the founder and scientific director of M4I, the Maastricht MultiModal Molecular Imaging institute on the Brightlands Maastricht Health campus. He was awarded the prestigious 2019 Physics Valorization prize by the Dutch organization for scientific Research, NWO and the 2020 Thomson medal of the international mass spectrometry foundation. In 2021 he was elected as a member of the Royal Dutch Academy of Sciences, KNAW. His academic research interests are mass spectrometry based personalized medicine, translational molecular imaging and “omics” research, high-throughput bioinformatics and the development and validation of innovative molecular analytical imaging techniques across the scientific disciplines.

About Pittcon

Pittcon is the world’s largest annual premier conference and exposition on laboratory science. Pittcon attracts more than 16,000 attendees from industry, academia and government from over 90 countries worldwide.

Their mission is to sponsor and sustain educational and charitable activities for the advancement and benefit of scientific endeavor.

Pittcon’s target audience is not just “analytical chemists,” but all laboratory scientists — anyone who identifies, quantifies, analyzes or tests the chemical or biological properties of compounds or molecules, or who manages these laboratory scientists.

Having grown beyond its roots in analytical chemistry and spectroscopy, Pittcon has evolved into an event that now also serves a diverse constituency encompassing life sciences, pharmaceutical discovery and QA, food safety, environmental, bioterrorism and other emerging markets.

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Photography specialist site DPReview is closing down

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Digital Photography Review, a popular online resource for photographers, is shutting down after 25 years of service.

The website’s closure is part of the restructuring plans announced this year by Amazon, which acquired DPReview in 2007.

“The site will remain active until April 10, and the editorial team is still working on reviews and looking forward to delivering some of our best-ever content,” DPReview said in a message posted on its website on Tuesday.

“This difficult decision is part of the annual operating plan review that our parent company shared earlier this year,” it confirmed.

DPReview added that “everyone on our staff was a reader and fan of DPReview before working here, and we’re grateful for the communities that formed around the site.”

Within hours of DPReview announcing its closure on Tuesday, another site dedicated to photography, PetaPixel, revealed it was offering a home to Jordan Drake and Chris Niccolls, whose YouTube channel, DPReview TV, shares camera and lens reviews, along with photography tips and other related content.

The pair will be the faces of a new PetaPixel YouTube channel launching in May and offering similar content as DPReview TV while exploring a number of new photography-related themes.

It’s not the first time Drake and Niccolls have shifted sites, as five years ago they moved from The Camera Store to DPReview.

“The show is going on,” Niccolls said in a video posted on Tuesday. “Everything that you know and love about [DPReview TV] , you’re still going to know it, you’re still going to love it, we’re still going to be doing our technical gear reviews out in the field, which means out in freezing cold Calgary, Canada. That’s not going to change.”

So vast is DPReview’s database of reviews and other content that it’s likely you’ve landed on the site whenever you’ve researched a camera or lens, or sought out news related to the industry. It’s not clear if the site will remain online so that its valuable resources remain accessible to photography fans, but it will certainly feel like a waste if the site simply disappears from view next month.

Editors’ Recommendations

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Xiaomi 13 Pro review: Camera-focused phone that makes photography easy, fun

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In 2022, Chinese electronics maker Xiaomi announced partnership with German company Leica, which manufactures cameras and optical lenses, to jointly develop camera-focused smartphones. The first smartphone with imaging system co-engineered by Xiaomi and Leica, named Xiaomi 12S Ultra, launched soon after. In a quick run, the company introduced the Xiaomi 13 Pro – its second-generation camera-focused smartphone. While the first-generation model never made it outside China, the Xiaomi 13 Pro made a global debut in February this year. It is the first smartphone to come out from the Xiaomi-Leica partnership that will be available in India, albeit in limited quantities only.

The Xiaomi 13 Pro is a second-generation smartphone with imaging system co-engineered by Xiaomi and Leica. It has a triple-camera array on the back, featuring 50-megapixel sensors of different configurations and focal lengths – 14mm (ultra-wide), 23mm (wide), and 75mm (telephoto). On the front, the phone has a 32MP camera sensor.

The Xiaomi 13 Pro covers length and breadth in terms of imaging-related features, but it is the ease-of-use that the smartphone has going for it. It is important because other smartphones with high-end camera systems require some technology awareness to deliver optimal results. The Xiaomi 13 Pro, however, is different because it simplifies the imaging experience for the users and allows them to make the most from its pro-grade camera system.

For example, the first interaction with the camera opens a pop-up that educates the users about the two available looks – Leica Authentic and Leica Vibrant. The pop-up appears just once, while opening the camera app for the first time, but it does the job of simplifying the future experience for the user. The authentic look keeps the colours and other compositions closer to real for natural appeal. In the vibrant look, there are pronounced colours besides improved contrast and dynamic range in the images. Xiaomi made sure to make it easy for the users to switch between the two by including the option on the top-side menu on the camera interface.

The Xiaomi-Leica partnership in imaging does not end with just two photographic styles; there are new filters, watermarks, and shutter sound. Besides, there is a master-lens system in the portrait mode. There are four Leica-tuned filters – vivid, natural, black & white natural, and black & white high contrast. Simple to use, these filters add zing to the images and open options for the users to explore and experiment.

Likewise, the master-lens system in the portrait mode lets users go beyond generic without getting into the complexities of changing lenses. The system has four options – Black & White (35mm), Swirly Bokeh (50mm), Portrait (75mm), and Soft Focus (90mm). Each of these deliver a novel experience, unmatched by any other smartphone – especially in terms of portrait experience.

From ultra-wide-angle to close-ups, half-body portraits, and zoomed shots, the Xiaomi 13 Pro has a versatile camera system that impresses on all fronts, irrespective of lighting conditions.

The Leica partnership is limited to photography, but videos are not after thought either. The Xiaomi 13 Pro is the first smartphone in the Android space to support 4K 30fps video recording in Dolby Vision format. The video quality is good, but can be improved.

For a camera-centric premium smartphone, the Xiaomi 13 Pro delivers on core competencies with clear focus on making everyday photography experience easy and fun. On other parameters, it is as good.

The Xiaomi 13 Pro has a bright and responsive 6.73-inch 10-bit AMOLED screen (1440p) of 120Hz adaptive refresh rate. It is a two-side curved screen with support for commonly used high dynamic range formats – Dolby Vision, HDR10+, HDR, and HLG. The dazzling screen is complemented by stereo speakers powered by Dolby Atmos. The speakers are loud and clear, but lack balance. Nevertheless, if not better, the experience is on-par with other smartphones in the premium segment.

Performance is top-notch and consistent, but the phone tends to warm up after extended usage. Though a camera-focused smartphone, the Xiaomi 13 Pro does not disappoint with gaming and multimedia experience. It is, however, a bit heavy and bulky and that came in way as a hindrance to the otherwise stellar experience. Speaking of experience, the Xiaomi 13 Pro boots Android 13 operating system-based MIUI 14 interface. It is a brand new interface with new widgets, wallpapers, and tools for customisation. There are efforts visible in the UI with regard to bloatware, but these remain. The bloatware, therefore, is less of an issue here but the subtle third-party ads placement in system apps is a sign of worry because these hamper the experience that one expects from a premium smartphone.

Rounding up the package is a good on-battery time of about a day on mixed usage. Power-and-graphic intensive workloads drain the battery, and there the phone’s 120W fast wired charging proves efficient. The phone also supports 50W wireless charging and 10W reverse wireless charging.

Verdict

Priced at Rs 79,999 for the 12GB RAM and 256GB on-board storage, the Xiaomi 13 Pro offers a novel imaging experience on top of a premium package. The smartphone makes everyday photography easy and fun. It opens new fronts in smartphone imaging for both amateurs and professionals to explore and experiment with. The camera-focused utilities make it what it is without casting a shadow on other parameters – design, display, performance, and battery life – where the phone shines as bright.

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The Galaxy S23 Ultra Is Great, but Would Be Better if It Folded

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I struggle to look at any other Samsung smartphone now that I’ve been living with its foldables. The Samsung Galaxy Z Fold 4 has effectively changed how I use Android. Most of the time, I’ll only bother with my Google Pixel 7 if someone is calling the number linked to that phone. Otherwise, you’ll see me primarily on the foldable. It’s just so much more versatile for the life I lead.

That’s not to say I didn’t enjoy my time with the Samsung Galaxy S23 Ultra, but I missed the Fold while reviewing this one. Samsung’s ultimate new flagship device is everything you could want in a smartphone, but there is also a lot here that feels like overkill now that we’re in the second iteration of the Ultra and its stylus-wielding ways. In fact, I forgot to use the stylus until about two days ago (I don’t draw). And while four cameras are a great back-of-the-box brag, I still don’t understand how to push them to the extent they’ve been marketed as being capable of, and I realize I probably never will. And I like high spec phones!

Regardless, the Ultra still has plenty going for it, including a better design than the last generation. Those rear-facing cameras may not be enough to justify the price to casual users, but their post processing algorithms are just as good as Google’s—better in some cases. The Ultra even has a few features I think foldables are still missing—like that stowable stylus.

But when it comes to targeting genuine innovation as opposed to niche specialty features, the Ultra might miss the mark compared to both the competition and Samsung’s other phones.

The best Ultra yet

If you like big phones, you’ll love the Galaxy S23 Ultra (I don’t—it’s not foldable). It has a 6.8-inch Dynamic AMOLED display, categorized as such because it’s based on tech that allows the display to dynamically change refresh rates without killing the battery. The jury is still out on how much battery that display tech saves, and I’ll get more into that when we talk about the battery rundown results later. Still, the display that Samsung has going here is like carrying a tiny version of its TVs in your pocket.

You might have gotten into the Galaxy line because you love Samsung’s displays. I can’t blame you. Like on the S22 Ultra, the screen on the S23 Ultra is a 1440p resolution with a 120Hz refresh rate. I love watching TV on this thing, even the 720p classics like Taxi and One Day at a Time. What I especially appreciate about Samsung is how low the brightness can go so that I can fall asleep to those shows at the end of the night without lighting up the room. Samsung enables the use of Android 12’s extra dim mode, and with that turned on, the phone doesn’t go any higher than about 350 nits—the standard rate is around 430 nits, or a whopping 1,750 nits if you’re out in direct sunlight and using the adaptive brightness feature.

A photo of the Galaxy S23 Ultra — The Galaxy S23 Ultra houses an S Pen inside its chassis.

The best part about the new Galaxy S23 Ultra is that Samsung fixed some of what I didn’t like with the Galaxy S22 Ultra’s design. Mainly, it squared off the edges instead of rounding them, so it’s easy to cradle the phone one-handed. I finally felt confident that I wasn’t going to drop it. I’m glad Samsung stopped with the overtly rounded edges, which are also annoying to use when you’re tapping on the edge of the screen.

This is still a gigantic smartphone. I hope you have big hands if you plan to play games on this thing. My small hands and long claws had difficulty cradling the Ultra to play with on-screen controls in games like Dreamlight Valley through Xbox Game Pass, and my wrists got weary holding the phone to control my character in Riptide GP: Renegade. The first-gen Razer Kishi controller that I use for Android gaming also feels as if it’s stretched to capacity on this phone, as if the Galaxy S23 Ultra will pop out at any minute. Unless it’s a point-and-tap game, I use a Bluetooth controller to play games on the S23 Ultra. The OnePlus 11’s similarly sizeable 6.7-inch display, comparatively, feels less ginormous because it doesn’t have the Ultra’s squared-off corners and the chassis is narrower.

The Galaxy S23 Ultra utilizes an in-display fingerprint sensor and face unlock for added lock screen security. It’s best that Samsung didn’t carry over the power button fingerprint sensor like on the Z Fold 4, because I am constantly accidentally pressing that one and locking myself out of it. Scanning in a fingerprint or smiling at the Ultra felt fast and responsive unless I wore a mask or sunglasses.

The default sorage space on the S23 Ultra has thankfully been bumped up to 256GB. It starts there and goes all the way up to 1TB, if you can stomach paying for it (doing so will add $420 on top of the base storage’s cost). The Ultra is also IP68 rated for water and dust resistance.

Qualcomm with Samsung flavoring

Something to note about this year’s Galaxy S23 lineup is that it runs a unique flavor of the Qualcomm Snapdragon 8 Gen 2 processor. Rather than use the one that came right out of the box, Samsung infused some of its AI smarts to tune camera and performance algorithms to its liking. The company already does this to some effect with its Exynos chips overseas, and it’s bringing that expertise to the phones sold in the states to one-up Google’s homemade Tensor processor. Sometimes it works.

The Galaxy S23 Ultra is available with 8GB and 12GB of RAM, which seems absurd. The Ultra should have 12GB of memory as the standard, since it’s technically the ultimate Samsung phone. Even with the 12GB of RAM, you can’t tell that the chip inside the Galaxy S23 Ultra is any beefier than what’s inside the similarly-specced OnePlus 11. On paper, and in Geekbench 5 (which will be Geekbench 6 in our reviews going forward), the Galaxy S23 Ultra performed better than OnePlus 11 by only about 300 points on the single-core score and 400 points on the multi-core one. But that proves little about whether Samsung’s infused chip is faster or more able than OnePlus’s vanilla one in actual use. Considering the Google Pixel 7 Pro is a laughing stock on the benchmark charts but not in real-world use—it ranks with 400 points less than the Galaxy S23 Ultra—it’s hard to use these benchmarks as the sole test for what’s possible. Anyway, neither of these Android devices can hold a candle to the numbers that Apple’s A16 Bionic spits out.

The upside to having such a powerful smartphone is that it can do everything: play games locally and from the cloud, create and edit documents, quickly export edited videos, process RAW photos, and chat with whoever. The Ultra can handle each of these cases with absolute ease, but that’s expected from a phone that I’ve been running for about three weeks. The real test for these devices is how they do after a year in the hand.

I echo the sentiments of a few other reviews: the Galaxy S23 Ultra doesn’t get as hot as previous versions of the device or even other Android phones. I fell asleep next to it a few nights in a row while it was charging and playing Pluto TV, and I didn’t feel the usual heat emanating as the battery fueled up for the next day. It did get toasty once while I was mindlessly scrolling through TikTok (as I often do), and it was significant enough that I remember saying, “I should probably mention this in the review.”

Apple’s iPhone 14 Pro Max lasts longer

I’m sorry to include Apple in the subhead of a Samsung Galaxy review. But I remain impressed by the battery test on Apple’s latest flagship, and it’s now the benchmark for every other flagship phone review.

Samsung’s 5,000 mAh battery is enormous while remaining the same size as in last year’s Ultra. Whatever Samsung did on the backend to extend battery life has worked thus far—the S23 Ultra beat out the S22 Ultra by about two hours, lasting 18 hours and 33 minutes. But that’s nothing to Apple’s nearly 24-hour battery life on its large iPhone 14 Pro Max. I want some of whatever magic Apple has going on with its software to come to Android land.

These results translated to using the phone daily, too. As I mentioned, I’m a TikTok freak, and I was surprised to see that the Ultra chewed through only 23% of its battery life in five hours after mixed-use, which included tuning into my Disney streamer.

Move over, Pixel camera

Because the Galaxy S23 Ultra is being dubbed as “ultimate,” its cameras are appropriately extreme. They’re also the key upgrade point here, and took up the majority of Samsung’s announcement event for this phone. The primary camera is a 200-MP standard wide-angle lens with optical image stabilization (OIS) and an f/1.7 aperture. The ultra-wide camera is a 12-MP sensor with an f/2.2 aperture. And the two telephoto lenses on the back also have OIS, though one has an f/2.4 aperture with a maximum 3x optical zoom, and the other is f/4.9 with a 10x optical zoom. The maximum digital zoom for this camera is 100x, just like the S22 Ultra.

A photo taken with the Galaxy S23 Ultra — An unedited photo shot at dusk with the Galaxy S23 Ultra.

Whenever someone outside of the Android bubble realizes the Galaxy S23 Ultra has four cameras on the back, they often ask me, “why?” The answer is so it has camera lenses for every foreseeable situation. For instance, if you’re chasing your kid around the park, you want that quick 3x optical zoom to capture them in the frame and up close. The result is a background bokeh effect that helps make the image instantly shareable on Instagram without using Portrait mode. Or if you happen to be lying down at the park, only to hear the roar of a jet engine approaching overhead, you can use the 10x optical zoom to get a closer look and maybe even post it to TikTok. For epic sky days, when the clouds seem to be cruising through as if they’re fresh cotton candy spun right out of the bin, the ultra wide-angle camera helps increase the drama when shared in your secret Slack channel of friends obsessed with sunsets.

Photo samples from the Galaxy S23 Ultra — Even with two dedicated telephoto cameras, it’s not always the best at zooming in to see what’s yonder.

Nowadays, most smartphone cameras are capable of everything I just described, but Samsung purports a higher resolution and greater color and distance detail. These are the cameras we have on us every day, and Samsung argues that these are the digital memories we’ll be pulling from as we struggle to remember our lives someday in the future.

That’s not to say that every photo the Galaxy S23 Ultra produces is perfect. Zooming past the 10x optical limit requires praying that the image won’t be jaggy or over-sharpened. There were so many instances on the evening of my daughter’s third birthday that the pictures of her punching around a balloon came out looking blurry—a real bummer for me as I was trying to find a cute one to share within group chats. I also tried staying up one night to capture the Air Force flying their planes in the sky above, and I could not produce anything worth sharing.

As it stands, the 200-MP sensor on the Galaxy S23 Ultra isn’t shooting in its full resolution at all times. Like most flagship smartphones, including the iPhone 14 Pro and Google Pixel 7, Samsung uses pixel-binning, so the phone shoots like a 12-MP camera with 16 pixels within each megapixel. The result is brighter photos throughout with better detail. I preferred the 12-MP images worked over by the algorithm over the full 200-MP raw ones, which usually require some post-editing, anyway. I want to avoid editing a photo while just trying to share it on social media.

You can see more clearly how the Galayx S23 Ultra’s post-processing stacks up compared to the iPhone 14 Pro Max and Pixel 7 Pro in the slideshow I put together here. For the most part, I found Samsung’s algorithms to veer towards being saturated, though it was impressive at tempering the final product to maintain detail where it mattered. The most obvious example is a photo where I shot the Santa Ynez Mountains in Santa Barbara; the S23 Ultra held on to the subtle detail of the sunset, lighting up the ridges without over-contrasting them.

I wrote more about Expert RAW in the other piece, including Samsung’s improved astrophotography feature. I wish that Samsung would have extracted this feature on its own rather than buried it inside another download that has to be enabled in the camera app before anyone knows it’s even there. Samsung includes all these unique camera features as if we’re supposed to know how to use them right out of the box. But as with the improved nighttime video recording capabilities teased during the Ultra’s debut at Galaxy Unpacked earlier this month, I had no idea where to start. Just because a smartphone can do all these fancy things doesn’t mean that the general population will aspire to that. And after ten years of reviewing smartphones, I might also give up.

That’s a big problem, as the camera system here is a major selling point and a major justification for the price tag. Compare that to Apple, which due to making both the iPhone and iOS, is able to bundle its phones with tons of everyday usability conveniences.

Before we move on from the cameras, there are a few other things to note: video recording on this smartphone is aces, even without a tripod. But for stability’s sake, I’ve been propping the Ultra up on a handheld tripod and following my kid around at 60 fps. The video is so smooth! The Ultra maxes out at 30 frames per second in 8K resolution for video recording, and there’s a Pro Video mode if you’re comfortable with tweaking camera settings. The front-facing camera is a 12-MP sensor with an f/2.2 aperture; annoyingly, it doesn’t zoom in or out.

Does a smartphone need a stylus?

Samsung’s S Pen has been around for a long while. It’s as iconic as Paris Hilton’s chihuahuas in the 2000s (RIP to them all). Last year’s Ultra was the first time it appeared in the regular Galaxy lineup after the sunsetting of the Galaxy Note series of yore. But functionally, it’s similar to what the S Pen could do before it. You can pop it out for drawing and cropping when the situation on screen calls for it—accommodating for business people doing precise things, like needing to move a cursor within a document or having to sign off on a contract while in line somewhere. But I’m starting to realize this screen is too limited for anything art driven. Granted, I’m not an artist, but if I imagine myself as a college student (again), the S Pen would feel much more appropriate docked inside a gadget like the Z Fold 4, with can open up into a larger display that’s fit for highlighting and making digital notes. That’s a form factor that lends itself to a stylus rather than the cramped screen on the S23 Ultra.

The other problem with the S Pen is that it requires its own space inside the chassis to dock. That’s the tradeoff for a phone slightly too big for your pocket or those straddling gaming controllers. As much as the S Pen is an iconic tool, I don’t know that it belongs on a smartphone anymore, even if you can use it as a Bluetooth controller.

Samsung’s version of Android

The Galaxy S23 Ultra ships with One UI 5, based on the latest version of Android 13. The One UI 5.1 update is the one that everyone’s waiting for right now, since it includes features like Bixby Text Calling, which works similarly to the Pixel’s Screen Calling. This feature is now live in English (it was available only in Korea until now), but I couldn’t get it to work during my testing period. I hope to revisit this and some of Bixby’s other features later, as I’m curious to understand the benefits of sticking with it over the tried-and-true (even if sometimes frustrating) Google Assistant.

I don’t mind Samsung’s version of Android, especially not since adopting the foldable. I realized it comes with the benefit of Samsung tweaking what Google gave it to its devices, even if it doesn’t have any semblance of Android’s interface framework, called Material You. Samsung offers some neat integration with Microsoft’s Your Phone app on Windows PCs that’s beyond the default experience, including the ability to control your device from the desktop remotely. There’s also the ability to snap a photo in Expert RAW and have it immediately populate in Adobe Lightroom. These abilities are nice to have, but like the Galaxy S22 Ultra last year, I hardly ever considered using them after the review period was over. They’re not a reason to go out and buy a phone.

Still too much phone

I know there are people out there salivating over the Galaxy S23 Ultra. They want the best that Samsung has to offer in its lineup, whether it’s for bragging rights or because they want all those lenses and this is the only camera they’ll own. I get all that, but I still think the Ultra is a bit of overkill in a market where we’re all screaming for a deal. There are still two other models of the Galaxy S23 that I have yet to review, and though they’re smaller devices with slightly different chassis, they more or less deliver the same Samsung experience across the board for less. They’re priced a little over the Pixel 7 lineup, starting at $800 and $1,000 for the S23 and S23+, respectively.

If you’re going to spend a starting price of $1,200 on any Android smartphone, I’m pleading with you to get a foldable instead. Yes, it’s a new kind of form factor with dubious longevity, but it’s not going away any time soon. For many, even those who want the best, camera fidelity will reach a point diminishing returns. But a foldable drastically changes every user’s experience. There is more competition cropping up overseas and the rumor mill is getting louder as more manfacturers are hopping on board this new smartphone fad. At the very least, if you’re spending a whopping amount of money on a smartphone, get something that’s a bonafide phone and a tablet for the price.

Better and better cameras are perhaps not what each new generation of a phone should be targeting, at least anymore.

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Galaxy S23 Ultra Camera Tested vs Pixel 7 Pro, iPhone 14 Pro Max

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I’m having a ton of fun with the Samsung Galaxy S23 Ultra. There’s still more to explore before I have a full review ready—I still need to test its purported nighttime video-taking prowess, plus I’m still learning how to get the most out of the Expert RAW mode in the Samsung camera app. But until then, I figured I’d share what I’ve noticed so far about the $1,200 phone’s camera compared to those on other popular flagship smartphones I have floating around, like the Pixel and iPhone.

How do the Galaxy S23 Ultra’s shots compare to those on the Google Pixel 7 Pro and Apple iPhone 14 Pro Max? So far, so good. It feels like Samsung fixed some of its zooming algorithms for more precise shots, but I still need to perform side-to-side testing against last year’s S22 Ultra. Samsung’s photos are still more saturated than what Google and Apple produce, but the result is less noisy than it used to be. The company has also toned down the sharpening on its photos and figured out how to balance stark sunlight coming in from the side. However, the Ultra is still no match for the Pixel when it comes to nighttime shooting capabilities. Spoiler: the Pixel 7 Pro is still better at shooting photos of stars, at least until I become a Expert RAW mode power user.

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