~Slug Streams~

Back with another week of fun!! Wednesday's game depends on if Throne releases my code for Rise by then or we'll return to Stories 2. Art stream time will be announced later~

Orbbec Femto Bolt ToF Camera

Techie Tech Tech!

The Orbbec Femto Bolt stands strong as a compact and high-performance device, aimed at meeting the demanding needs of AI developers and those engaged in 3D vision applications. This multi-mode Depth and RGB camera, is equipped with a USB-C connection for power and data, presenting itself as a versatile and cost-effective solution. Its capabilities make it an attractive option for developers…

Xiaomi Pad 6 max: ये पावरफुल टैबलेट ब्लॉगर इसे खरीदने से

Xiaomi Pad 6 max: ये पावरफुल टैबलेट ब्लॉगर इसे खरीदने से खुद को रोक नहीं पाएंगे Xiaomi Pad 6 max-एक अद्वितीय और शक्तिशाली टैबलेट जिसे देखते ही ब्लॉगर इसे खरीदने से खुद को नहीं रोक पाएंगे। इसमें वो सभी सुविधाएं हैं जिनकी एक पेशेवर ब्लॉगर को जरूरत होती है। शाओमी पेड 6 मैक्स पैड 6 मैक्स वास्तव में उन उपकरणों में से एक है जो तकनीकी प्रगति औरउपयोगकर्ता अनुभव के संगम को प्रस्तुत करता है। इस टैबलेट…

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Lol at all the HI3rd fans shitting on the new update bc "It looks like *insert game that's quite literally graphically better than OG HI3rd*!!" Like I'm so sorry but Hoyoverse has just only recently gotten into the habit of making decent 3D models for their characters, but before that the models in HI3rd were very dated.

I've seen many HI3rd fans compare the new update to Tower of Fantasy and they mean it in a bad way bc TOF does run very laggy. But if you have decent specs TOF is gorgeous. It looks prettier than HI3rd which is stuck in its old "3D anime art style" ways.

I've played TOF since launch on high graphics without lagging and it's genuinely amazing how much the devs have improved in character design and terrain design in the span of a year. The environment alone is nice to look at.

And Hoyoverse obviously noticed this. TOF is not a "Genshin Killer" but it's definitely made an impact anyways and Hoyoverse knows that if they don't find a way to stick out than their games will be seen as old and outdated compared to the new stuff that's yet to release (And don't get me started on how pretty Wuthering Waves looks or that new game just teased by Netease.)

The reality is that Hoyoverse is not the only one making expansive open world RPGs with gacha elements like Genshin anymore and they have to try different and new things to stay afloat now. We're entering a new stage where multiple gaming companies are gonna try to make their own open world RPGs and Hoyoverse is just trying to not completely die out before it happens, but the fans are just so stuck in things never changing lol.

The magic system in Threads of Fate/Dewprism is genuinely a LOT of fun but unfortunately the level design never really fully utilizes this. The game deeply suffers from being split in twain as both a 3D platformer and a 3rd person action RPG (a la kingdom hearts) but doesn't really excel in either; there's not enough enemies thrown at you to really get into the flow of battle, and all of the bosses are more like older 3D zelda bosses where you target their weakness rather than action game bosses.

And in reverse, the platforming is boring at best and frustratingly hard at worst.

Honestly I think a possible solution could be if there were split levels for each (i.e. a world for platforming and a world for mostly fighting, I suppose like Sonic Unleashed?). In general I think ToF suffers from being a short game - each route is only 8 hours of gameplay, and most levels are reused between Mint and Rue's story...so, gameplay wise, it ends up being about 8 hours of the same thing twice.

But otherwise, mostly...the level design is kind of bad for most of the stages. I think there's a few (Carona Forest, Ghost Temple, Raging Mountain, Tower of Maya... I think that's it honestly) levels that are genuinely fun but otherwise. It does actually kind of suck.

However it's the ideal game I'd like to make - a 3D platformer action game - and ToF is a useful example of what has already been tried, and what to avoid.

Buy an iPhone 14 Pro Max 5G 128GB from Spectronic UK at an Affordable Price

Spectronic UK is a top-rated e-commerce store that specializes in offering the latest Apple phones. We take pride in providing our customers with a wide range of phones with advanced features at highly competitive prices. You can order the iPhone 14 Pro Max 5G with 128GB of storage from our online store and get it at the best price.

The following specifications are mentioned below:

Internal Memory- 128GB 6GB RAM

📷Main Camera- Triple [48 MP, f/1.8, 24mm (wide), 1/1.28″, 1.22µm, dual pixel PDAF, sensor-shift OIS, 12 MP, f/2.8, 77mm (telephoto), 1/3.5″, PDAF, OIS, 3x optical zoom, 12 MP, f/2.2, 13mm, 120˚ (ultrawide), 1/2.55″, 1.4µm, dual pixel PDAF, TOF 3D LiDAR scanner (depth)]

📷Selfie Camera- 12 MP, f/1.9, 23mm (wide), 1/3.6″, PDAF, OIS (unconfirmed) SL 3D, (depth/biometrics sensor)

🔋Battery- Li-Ion 4323 mAh, non-removable (16.68 Wh)

Colour- Deep Purple

In The Box- The Phone, USB Type-C to Lightning Cable, Documentation, Apple Sticker.

Experience the ease and convenience of online shopping with Spectronic UK by visiting our website and placing your order now!

Manifesting did not work. He's still breech and she's a quite a bit smaller than him so we scheduled a c-section at 37 weeks exactly.

It feels like not a single thing has gone the way I planned/wanted and I hate it.

His diagnosis might have changed as well (to a more severe form of TOF).

I cried most of the way home and several times at my appointments(and still crying tbh). But therapist recommended anxiety spiral stopping techniques were actually quite effective.

What I know is they're both hella active. They both passed their BPPs today. She has a very adorable face (I finally got to see it in 3D) and they both have a lot of hair.

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iPhone 14 Pro Max Features Specifications

Apple’s new iPhone 14 Pro and Pro Max have been floating in the market for a while now. Improve faster then old model’s iPhone 13 pro max even iOS. If you are interested in buying the iPhone 14 and want to know more about what is expected of it, read on to know more:

Apple’s new iPhone 14 should be a great improvement and a big hit among all iPhone’s. Apple iPhone 14 has been in the news for a long time, and people are eagerly waiting for its launch as it will be a great upgrade.

iPhone 14 Pro Max display

6.7-inch Super Retina XDR Dynamic Island FTW Size: 6.7 inches Resolution: 2796 x 1290 pixels, 19.5:9 ratio, 460 PPI Technology: OLED Refresh rate: 120Hz Screen-to-body: 88.45 % Features: HDR support, Oleophobic coating, Scratch-resistant glass Ambient light sensor, Proximity sensor

iPhone 14 Pro Max Camera System

Main camera: 48MP quad-pixel sensor. Specifications: Aperture size: F1.8; Focal length: 24 mm; Pixel size: 2.44 μm. Second camera: 12 MP Telephoto, OIS, PDAF. Specifications: Optical zoom: 3.0x; Aperture size: F2.8; Focal Length: 77 mm. Third camera: 12 MP ltra-wide, PDAF. Specifications: Aperture size: F2.2; Focal Length: 13 mm; Pixel size: 1.4 μm. Fourth camera: ToF 3D depth sensing Video recording: 3840x2160 4K UHD 60 fps, 1920x1080 Full HD 240 fps, 1280x720 HD 30 fps Front: 12 MP Auto focus, HDR Video capture: 3840x2160 4K UHD 24 fps System chip: Apple 16 Bionic Processor Hexa-core CPU Hexa-core 2x3.46 GHz Avalanche + 4x Blizzard GPU Apple GPU 5-core graphics RAM: 6GB Internal storage: 128GB Device type: Smartphone OS: iOS (16.x)

Capacity: 4323 mAh Type: Built‑in rechargeable lithium‑ion

Charging : Fast charging, Qi wireless charging, USB

MagSafe wireless charging Max charge speed: Wireless: 15.0W

Storage :128GB 6GB RAM, 256GB 6GB RAM, 512GB 6GB RAM, 1TB 6GB RAM

Bluetooth: 5.3 Wi-Fi: 802.11 a, b, g, n, ac, ax Wi-Fi 6; Wi-Fi Direct, Hotspot Sensors: Accelerator, Gyroscope, Compass, Barometer, LiDAR scanner Hearing aid compatible: M3, T4

Laser Scanning: An In-Depth Guide to the Technology, Its Types, and Importance

Laser scanning is a revolutionary technology that enables the precise measurement and mapping of objects, environments, and surfaces by using laser beams. It plays a key role in a wide variety of fields, such as architecture, engineering, construction, environmental science, archaeology, and even filmmaking. This technology works by emitting laser beams from a scanner, which reflect off surfaces, with the time it takes for the light to return being recorded. This data is then used to generate accurate, detailed 3D models or maps. In this article, we will explore the concept of laser scanning, the different types of laser scanning, and its importance across industries. What Is Laser Scanning? Laser scanning, often referred to as LiDAR (Light Detection and Ranging) or 3D scanning, is a technique that utilizes laser beams to collect data points from the surface of objects. These data points represent the distance between the scanner and the object, calculated based on the time it takes for the laser to hit the object and reflect. This results in a "point cloud," which is essentially a collection of millions of data points that can be processed to create a precise 3D digital model. The primary advantage of laser scanning is its ability to capture complex geometries and large environments with a high degree of accuracy and detail in a relatively short amount of time. Compared to traditional measurement methods, laser scanning can be exponentially faster while also reducing human error. Types of Laser Scanning There are three main types of laser scanning technologies: satellite laser scanning, airborne laser scanning, and terrestrial laser scanning. Each type serves a unique purpose depending on the scope and the area that needs to be scanned. 1. Satellite Laser Scanning Satellite laser scanning, also known as spaceborne laser scanning, involves lasers mounted on satellites orbiting the Earth. These lasers are used to measure the Earth’s surface and can map large-scale environments, from vast landscapes to urban areas. This technology has become instrumental in climate studies, topography, forest management, and disaster response. Applications of Satellite Laser Scanning: - Climate Change and Environmental Monitoring: Satellite laser scanning helps scientists monitor deforestation, glacier movements, and sea-level changes. By comparing scans taken over time, researchers can observe environmental changes on a global scale, making this an essential tool for studying climate change. - Urban Planning and Development: The ability to collect data on cities and urban areas from space allows for large-scale infrastructure planning and population growth studies. - Disaster Management: Satellite laser scanning can be used to assess damage caused by natural disasters such as earthquakes, floods, and hurricanes. It provides real-time data for emergency responses and recovery planning. One of the best-known examples of this technology is NASA’s ICESat-2 (Ice, Cloud, and Land Elevation Satellite), which measures ice sheet elevations, forest canopy heights, and more. 2. Airborne Laser Scanning Airborne laser scanning, often referred to as LiDAR when applied in this context, is performed by mounting a laser scanner on an aircraft, helicopter, or drone. As the aircraft flies over a target area, the laser scanner emits thousands of laser pulses per second towards the ground. These pulses then reflect to the scanner, and the time-of-flight (ToF) is used to calculate distances, which can be converted into topographical maps or 3D models. Applications of Airborne Laser Scanning: - Geographical Information Systems (GIS): Airborne laser scanning is widely used in GIS to generate accurate digital elevation models (DEMs) and 3D topographical maps. This data is crucial for floodplain mapping, land-use planning, and environmental conservation. - Forestry Management: LiDAR is used to analyze forest structures by calculating tree heights, canopy density, and forest biomass. This helps in forest monitoring, resource management, and wildfire risk assessment. - Infrastructure and Urban Mapping: Municipalities use airborne laser scanning to map cities and urban regions, helping with planning for new infrastructure projects, monitoring traffic patterns, and managing utilities. One advantage of airborne scanning is its ability to cover vast areas quickly, making it ideal for surveying inaccessible regions such as dense forests, mountains, and large river systems. 3. Terrestrial Laser Scanning Terrestrial laser scanning involves the use of stationary ground-based scanners that are typically mounted on tripods or other platforms. These scanners rotate around a fixed point and capture the environment in 360 degrees. Unlike airborne or satellite scanning, terrestrial laser scanning provides highly detailed and accurate scans of objects within a smaller range. Applications of Terrestrial Laser Scanning: - Architecture and Construction: Terrestrial laser scanning is widely used in the construction industry for surveying buildings, bridges, and other infrastructure. Scans can help identify structural issues, monitor progress, and create precise as-built models. - Heritage Preservation: This technology is often used to create digital replicas of historical monuments, ancient buildings, and archaeological sites. These digital replicas help preserve and restore cultural heritage. - Industrial Inspections: Terrestrial laser scanning is used to inspect manufacturing facilities, pipelines, and machinery. It allows engineers to detect potential wear and tear or damage, making maintenance more efficient. The detailed and accurate data provided by terrestrial laser scanning is essential for professionals working in fields that require precise measurements, such as civil engineering, architecture, and construction. The Importance of Laser Scanning Laser scanning has become an invaluable tool in modern industries due to its unparalleled precision, speed, and versatility. Below are some key reasons why laser scanning is important: 1. High Accuracy and Precision Laser scanning produces data with a level of accuracy that traditional surveying methods cannot match. The technology can capture details down to millimeter-level precision, making it ideal for industries where even the smallest measurement errors can have significant consequences, such as construction, engineering, and manufacturing. 2. Time-Efficiency Laser scanning drastically reduces the amount of time needed for surveying and data collection. Traditional surveying techniques may take days or weeks to complete large-scale projects, whereas laser scanning can collect data in hours. This saves time and resources, allowing projects to be completed faster. 3. Comprehensive Data Collection Laser scanning captures millions of data points in a short period, resulting in a highly detailed point cloud that can be processed into a 3D model or map. These models are not only accurate but also rich in detail, providing comprehensive information that can be analyzed and manipulated for various purposes. 4. Non-Contact Measurement Laser scanning is a non-invasive technology, which means there is no need for physical contact with the object being scanned. This is particularly useful when working with delicate or hazardous materials, such as historical artefacts, contaminated areas, or dangerous construction sites. 5. Versatility Across Multiple Industries Laser scanning is versatile enough to be used in a wide range of industries, including: - Construction: For as-built models and progress tracking. - Archaeology: To digitally preserve and analyze historical sites. - Automotive and Aerospace: To inspect components and detect manufacturing defects. - Environmental Science: To monitor natural ecosystems and study changes in landscapes. - Healthcare: For creating accurate prosthetics and detailed imaging of the human body. Conclusion Laser scanning is an essential technology that is transforming the way we measure, map, and analyze the world around us. With its ability to generate highly accurate 3D models in a fraction of the time required by traditional methods, it has found applications in numerous industries, from construction and environmental monitoring to archaeology and industrial inspections. The future of laser scanning looks even more promising with the continued advancement of the technology. As laser scanning becomes more affordable and accessible, its potential applications are expected to expand, bringing unprecedented precision and efficiency to various fields. Whether you’re planning a new infrastructure project, preserving a historical site, or conducting environmental studies, laser scanning is likely to play a critical role in your work. Read the full article

Apple iPhone 13 Pro Max Price in Pakistan - Specs - Reviews

Apple iPhone 13 Pro Max Pricing

The Apple iPhone 13 Pro Max is a premium device, priced at Rs 373,999 in Pakistan. Although it’s on the pricey side, its top-notch features and performance make it a worthwhile investment.

Apple iPhone 13 Pro Max Specifications

The iPhone 13 Pro Max runs on iOS 15, which can be updated to iOS 15.3, offering a sleek and user-friendly experience. With dimensions of 160.8 x 78.1 x 7.7 mm and a weight of 240 grams, it's slightly heavier but feels robust and durable.

Apple iPhone 13 Pro Max Design and Colors

Available in four stunning colors—Graphite, Gold, Silver, and Sierra Blue—the iPhone 13 Pro Max exudes elegance and style. No matter which color you choose, it’s sure to look sophisticated.

Apple iPhone 13 Pro Max Display

This model features a sizable 6.7-inch Super Retina XDR OLED touchscreen, delivering vibrant and detailed visuals. The display is safeguarded by scratch-resistant ceramic glass, ensuring durability and clarity.

Apple iPhone 13 Pro Max Performance

Under the hood, the iPhone 13 Pro Max is powered by a high-performance Hexa-core processor and the Apple A15 Bionic chip. This combination ensures lightning-fast speed and smooth operation, whether you're gaming or multitasking.

Apple iPhone 13 Pro Max Storage

The iPhone 13 Pro Max offers generous storage options: 128GB, 256GB, 512GB, and a massive 1TB. It also includes 6GB of RAM, providing ample space and quick access to your apps and files.

Apple iPhone 13 Pro Max Camera System

The iPhone 13 Pro Max is equipped with a versatile camera setup:

12 MP Wide Camera: Captures stunning photos with clarity.

12 MP Telephoto Camera: Allows for detailed zoomed-in shots.

12 MP Ultrawide Camera: Perfect for expansive landscape photography.

TOF 3D LiDAR Scanner: Enhances depth sensing for better portrait effects.

The front camera is a 12 MP sensor, ideal for high-quality selfies and video calls.

Apple iPhone 13 Pro Max Connectivity

Stay connected with Wi-Fi, Bluetooth, and support for 2G, 3G, 4G, and even 5G networks, ensuring speedy internet access and seamless device pairing.

Apple iPhone 13 Pro Max Battery

The iPhone 13 Pro Max features a powerful 4352 mAh battery, offering long-lasting performance. It supports fast charging, reaching up to 50% in just 30 minutes.

Apple iPhone 13 Pro Max Additional Features

The iPhone 13 Pro Max includes a variety of extra features:

Face ID: Securely unlock your phone with facial recognition.

Lightning to 3.5 mm Headphone Jack Adapter: Allows you to connect traditional headphones.

Stainless Steel Frame: Provides durability and a premium feel, complemented by glass front and back panels for extra protection.

In summary, the Apple iPhone 13 Pro Max is an outstanding phone with exceptional capabilities. It’s perfect for capturing memories, enjoying multimedia, and staying connected. Despite its higher price, it offers an unparalleled mobile experience. If you’re in search of a powerful and stylish device, the iPhone 13 Pro Max is an excellent choice.

Time of Flight (ToF) Sensors is projected to grow from USD 5750 million in 2024 to USD 1758.9 million by 2032, expanding at a CAGR of 15.00%.Time-of-Flight (ToF) sensors have rapidly emerged as a critical technology in various industries, enabling applications ranging from 3D imaging to gesture recognition and autonomous navigation. These sensors measure the time taken by a light signal to travel to an object and back, allowing precise distance calculations. With the increasing demand for accurate depth sensing and 3D mapping, the global ToF sensors market is poised for significant growth. This article explores the key drivers, market trends, opportunities, and challenges associated with the ToF sensors market.

Browse the full report at https://www.credenceresearch.com/report/time-of-flight-tof-sensors-market

Market Overview

The global Time-of-Flight sensors market has been experiencing robust growth, driven by advancements in consumer electronics, automotive, healthcare, and industrial automation. According to industry reports, the market is expected to grow at a compound annual growth rate (CAGR) of over 15% from 2023 to 2030, reaching a market value of several billion dollars by the end of the forecast period.

Key Drivers of Market Growth

1. Rising Demand in Consumer Electronics: The integration of ToF sensors in smartphones, tablets, and gaming devices has been a significant driver of market growth. These sensors enable features like facial recognition, augmented reality (AR), and enhanced photography, which have become standard in high-end devices. The ongoing trend of miniaturization and the increasing adoption of 3D imaging in consumer electronics are expected to further fuel the demand for ToF sensors.

2. Advancements in Automotive Industry: The automotive sector is another major contributor to the growth of the ToF sensors market. These sensors play a crucial role in advanced driver assistance systems (ADAS), enabling functions like collision avoidance, pedestrian detection, and autonomous parking. As the industry moves towards fully autonomous vehicles, the demand for high-performance ToF sensors is anticipated to surge.

3. Healthcare and Medical Applications: In the healthcare sector, ToF sensors are being increasingly used in medical imaging, patient monitoring, and telemedicine. Their ability to provide accurate depth sensing and real-time data is invaluable in applications like remote surgery and diagnostic imaging, driving their adoption in the medical field.

4. Industrial Automation and Robotics: The industrial automation sector is leveraging ToF sensors for applications such as robotics, machine vision, and industrial safety. The sensors' capability to create detailed 3D maps and measure distances with high precision makes them ideal for automating complex manufacturing processes and ensuring worker safety.

Opportunities and Challenges

Opportunities: - Technological Advancements: Continuous innovations in sensor technology, such as the development of hybrid ToF sensors and the integration of AI for enhanced accuracy, present significant growth opportunities. - Expansion in Emerging Markets: The increasing adoption of advanced technologies in emerging economies offers untapped growth potential for ToF sensor manufacturers.

Challenges: - High Costs: The high cost of ToF sensors, especially in the automotive and healthcare sectors, poses a significant challenge to market growth. Manufacturers are focused on reducing costs through economies of scale and technological advancements. - Technical Limitations: Issues related to accuracy, range, and environmental interference (e.g., lighting conditions) remain technical challenges that need to be addressed for broader adoption.

Key Players

Texas Instruments Incorporated (TI)

STMicroelectronics (ST)

Infineon Technologies AG

Panasonic Corporation

Sony Corporation

Broadcom Inc.

OMRON Corporation

Renesas Electronics Corporation

Analog Devices, Inc.

Vanguard International Semiconductor Corporation

Segmentation

By Type

RF-modulated Light Sources with Phase Detectors

Range-gated Imagers

Direct Time-of-Flight Imagers

Based on Applications

Augmented Reality and Virtual Reality

LiDAR

Machine Vision

3D Imaging and Scanning

Robotics and Drone

Based on End-User

Consumer Electronics

Automotive

Entertainment and Gaming

Industrial

Healthcare

Based on Geography

North America

The U.S.

Canada

Mexico

Europe

Germany

France

The U.K.

Italy

Spain

Rest of Europe

Asia Pacific

China

Japan

India

South Korea

South-east Asia

Rest of Asia Pacific

Latin America

Brazil

Argentina

Rest of Latin America

Middle East & Africa

GCC Countries

South Africa

Rest of Middle East and Africa

Browse the full report at https://www.credenceresearch.com/report/time-of-flight-tof-sensors-market

About Us:

Credence Research is committed to employee well-being and productivity. Following the COVID-19 pandemic, we have implemented a permanent work-from-home policy for all employees.

Contact:

Credence Research

Please contact us at +91 6232 49 3207

Email: [email protected]

Website: www.credenceresearch.com 

ToF Valentine's Date~

We're joining @cyberlyri for a cute Valentine's date adventure! Come hang out and vibe with us!

Watch us both here!

A time-of-flight 3D Depth Camera S111D | CUBE EYE

The CUBE EYE ToF 3D Depth Camera S111D is a high-performance camera that uses Time-of-Flight (ToF) technology to determine the distance between objects in its field of view. This allows the camera to create precise and detailed 3D depth maps of its surroundings.

The S111D features a 100-degree field of view with a resolution of 640x480 pixels. It handles frame rates of up to 30 frames per second, making it ideal for real-time applications. The S111D is also compact and lightweight, facilitating easy integration into various devices. Its dust and water resistance makes it suitable for use in harsh environments.

The S111D has numerous uses in a variety of industries, including:

Machine vision: The S111D helps machines identify and classify objects.

Security: It creates three-dimensional security systems that detect and track intruders.

Surveying and mapping: The S111D creates accurate and detailed 3D maps of the environment.

Robotics: It helps robots navigate and avoid obstacles.

Augmented reality (AR): The S111D creates realistic AR experiences by accurately tracking objects' positions and orientations in the real world.

A time-of-flight 3D Depth Camera S111D Specification:

Type: Board

Operating Range: 0.2 ~ 2m

Depth Pixel Count: VGA(640x480)

Field of View (H, V): 90°(H) x 68°(V)

Output Data (bit):  Amplitude/ Depth Image 10bit

Accuracy:  <±1% by Distance

Illuminator: VCSEL 940nm x 1

If you are looking for highly accurate depth cameras, you can find them at Cube Eye.

Click here to contact Cube-eye.

View more: A time-of-flight 3D Depth Camera S111D

Electric Heater Elements - Hilltech Sales Corporation