"How is this possible?!"
Cook's eyes widened, his face filled with disbelief as he stared at the laptop screen in front of him.
Because the text displayed on the laptop screen in front of him clearly read: 'Sensor-Shift Optical Image Stabilization Technology.'
"Optical image stabilization technology, everyone is familiar with it, right? After all, our friendly competitor, Apple, relied on it to achieve explosive sales growth.
To be honest, after getting our hands on the iPhone 5 smartphone, we immediately researched it urgently, and then, after obtaining relevant data, we breathed a sigh of relief."
"Why did we breathe a sigh of relief? Because after comparison, we found that the iPhone 5 smartphone's optical image stabilization technology is not as good as ours!
Moreover, their OIS optical image stabilization technology still has several flaws, and these flaws alone cause us to steadily outperform them in optical image stabilization performance."
Upon hearing Gao Nian's words, the people at the scene instantly lit up.
They hadn't expected Geek Technology to have also developed optical image stabilization technology, and hearing Gao Nian's words, it seemed that Geek Technology's optical image stabilization technology was even stronger?
Knowing this truth, how could the people at the scene not be excited and agitated?
"First, before introducing the flaws of the iPhone 5 smartphone's optical image stabilization technology, we must understand what technical routes optical image stabilization technology has.
Currently, there are three major technical routes for optical image stabilization technology on professional cameras. The first technical route is EIS electronic image stabilization technology.
Needless to say, almost all smartphones currently have this function.
The second technical route is lens-shift optical image stabilization technology, which mainly achieves optical image stabilization by adjusting the optical lens components.
The third technical route is relatively new, a technical route that has only emerged in recent years, and that is the sensor-shift optical image stabilization technology route.
Of course, on professional cameras, it is called 'in-body image stabilization technology,' but it's just a different name, the principle is the same.
" Pausing for a moment, Gao Nian continued:
"As everyone knows, the reason why a new technology can become popular and appear before everyone's eyes is definitely because it has its advantages.
On cameras, in-body image stabilization technology also has its advantages, and its advantage is that it makes up for the shortcomings of lens-shift optical image stabilization technology.
After all, if a technology is perfect, then there is no room for subsequent technologies to be born.
So lens-shift optical image stabilization technology also has shortcomings, and in-body image stabilization technology was born to make up for its shortcomings.
Where are these shortcomings?
The shortcoming is that lens-shift optical image stabilization technology has the problem of cropping the edges of the image, resulting in a loss of image quality!
And our sensor-shift optical image stabilization technology does not have this problem.
Of course, our sensor-shift optical image stabilization technology also has shortcomings, but this shortcoming doesn't count for much on smartphones, and instead, the advantages outweigh the disadvantages.
As for what are the advantages of our sensor-shift optical image stabilization technology?
I don't know if you've heard the saying in the photography field, 'A larger sensor is always better.'
The so-called sensor size here is actually the light-sensitive area of the image sensor, the larger the light-sensitive area of the sensor,
The more light it can receive.
That ultimately makes it easier to take high-quality photos, which can be seen in professional cameras and mobile phones.
Speaking of which, our mid-to-high-end smartphones already have 12 megapixels, and some smartphones even have 41 megapixels.
But if you transfer the photos to your computer and then view the photos, you will find that the pixels of the mobile phone are obviously very high.
But why is it that the photos taken by mobile phones can't beat cameras with 5 megapixels or 8 megapixels?
In fact, if you disassemble the lens part of the camera and check the image sensor of the camera, you will know why a 41-megapixel smartphone can't beat a multi-megapixel camera.
Because their image sensors are larger than your thumb's nail, several times larger.
The larger the area of the image sensor, the more light it can receive, just like the larger the windows in a house, the more light enters the house, and the brighter the house is.
The first major advantage of our sensor-shift optical image stabilization technology, and also the most important advantage, is that we can have a super-large image sensor.
This will ultimately be like the case of 'professional camera photography' versus 'mobile phone photography.'
The camera's pixels are obviously very low, but the result is that it beats the ultra-high-pixel smartphone. Everyone will know this after buying a Geek S3 smartphone and testing it.
The pixels of our Geek S3 smartphone may still look like 12 megapixels.
But in fact, relying on the super-large 1/ image sensor, the clarity of the photos taken.
Far surpasses the previous generation of Geek S2 smartphones, and even more so a certain smartphone that supports optical image stabilization technology and also has 12 megapixels."
Upon hearing Gao Nian's words, the people at the scene nodded slightly, seemingly understanding.
Since Gao Nian said so, then this Geek S3 smartphone with a super-large image sensor and support for optical image stabilization technology must take very strong photos.
"Now that we've finished talking about the first advantage, the next one is the second advantage.
Our mobile phone photography relies on the image sensor to sense external light and then convert the light into an image.
After our image sensor's light-sensitive area increases, it can naturally sense more light and speed up the shutter speed of the photo.
This is like pouring water from a kettle into a cup, the speed at which a large-mouthed kettle fills a cup is different from the speed at which a small-mouthed kettle fills a cup.
Our image sensor is so much larger than other image sensors, which means we have a faster shutter speed.
This improvement in shutter speed can significantly improve the photo-taking experience.
Especially in low-light, dark-light and other environments, the advantages are more obvious.
So these are the two major advantages of our sensor-shift optical image stabilization technology."
Upon hearing Gao Nian's words, the people at the scene instantly lit up.
At this, Gao Nian waved his hand gently, and then the projection screen behind him turned into a video test screen.
"Next, let's conduct an actual machine test of the Geek S3 smartphone's optical image stabilization function."
As Gao Nian spoke, three mobile phones appeared on the projection screen behind him.
They are the Geek S2 smartphone, the Geek S3 smartphone, and the iPhone 5 smartphone.
In this video test, the initial test was a photo test on a car engine compartment.
I saw the staff gently clicking on the three mobile phones, and then three pictures appeared in front of the people.
Among the pictures of the three mobile phones, the Geek S2 smartphone, which does not support optical image stabilization technology, performed the worst, and the photos taken were blurry.
Then there were the pictures of the Geek S3 smartphone and the iPhone 5 smartphone. The pictures of both mobile phones were very clear, but the best performance was the Geek S3 smartphone.
Because people can clearly see that the pictures taken by the Geek S3 smartphone are more vivid and bright, and also clearer.
After this, there was a video recording test on the car engine compartment.
In this video recording test, the performance of the Geek S2 smartphone was slightly better than before when taking photos.
At least through video recording, you can see the general situation, but the overall is still very bad.
As for the video recording screens of the other two smartphones, they are quite stable, as if it is not on a shaking engine, which is surprising!
