lcd monitors india free sample

Samsung, India’s largest and most trusted consumer electronics brand today launched its all-new Smart Monitor with an innovative, Do-It-All screen that lets users enjoy Netflix, YouTube, Apple TV and other OTT apps, remotely connect with their office PC and also edit documents using Microsoft 365.

Designed to meet the ever-evolving needs of Indian Gen Z and millennials who are working, learning and consuming entertainment at the same time, the premium lifestyle Smart Monitor incorporates powerful mobile and PC connectivity, remote home office and learning features as well as Smart Hub, a comprehensive entertainment hub, similar to Samsung’s built-in Smart TV platform, to watch OTT content seamlessly. Users can even get a desktop like experience without a PC by connecting Galaxy phones to the Smart Monitor through Samsung DeX.

“The pandemic has changed our lifestyle and work, education and entertainment have transformed into home-centered activities. Today, consumers value products that offer convenience and enable them to multi-task seamlessly. At Samsung, we believe in bringing impactful innovations and our new Smart Monitor is an example of that. Consumers no longer have to choose between different screens for varied uses as Smart Monitor brings it all together and offers the flexibility to smoothly transition from working and learning to entertaining oneself,”said Puneet Sethi, Vice President, Consumer Electronics Enterprise Business, Samsung India.

Samsung Smart Monitor will be available in India from April 09, 2021 with a starting price of INR 28,000 on Samsung’s official online store Samsung Shop, Amazon and all leading retail stores. For a limited period, Smart Monitors will be available at an introductory price of INR 21,999 onwards.

For less than $175, the Asus VA24DCP is a capable 24-inch 1080p IPS display that has full USB-C charging at 65 watts. It’s a great basic monitor for those who want something to hook up to their laptop or PC to browse the internet and get some office work done, as its colors look good for day-to-day use, and it has better contrast than many higher-cost monitors. For $100 less than our top pick, you’re giving up a better, more adjustable stand, a USB hub, and some color accuracy, but if those aren’t important to you, this is a nice monitor for a great price.

Based on type, the LED monitor segment held the largest market share in 2021, holding more than half of the global market, and is expected to maintain its leadership status during the forecast period. In addition, the same segment is expected to cite the fastest CAGR of 7.67% during the forecast period. The report also analyses other segments of the market such as LCD monitor, CRT, and other segments.

Monitor displays are commonly used peripheral output devices in computers. These peripheral devices are also called ‘display monitors’ or ‘monitors’ or ‘displays’. They display information to a computer user.[1] There are a few important reasons why practicing radiologists should have a working knowledge of monitor displays and these are described below.

Impact of digital imaging: Computers play an important role in contemporary radiology practice. Most radiology modalities today use monitor displays to aid analysis of images. Monitors have become integral components of digital radiography, USG, CT / MRI consoles and workstations, and PACS terminals.

Shift in analysis model: In the traditional model of radiology practice, hardcopy images displayed on viewboxes were the first point of analysis. Today, in most instances, softcopy images displayed on monitors are the first point of analysis. As a result, key steps like viewing, analysis, processing, and postprocessing of softcopy images are executed directly at monitors of consoles, workstations, and office desktops.[2]

Heterogeneity of data: The data displayed on the monitors in a radiology department is heterogeneous. It is often a variable combination of monochrome and gray-scale and/or color images viewed alongside text, audio, and/or video.[3] In such circumstances, radiologists need to possess a working knowledge of important performance parameters like resolution, brightness, contrast ratio, and viewing angles.

Growth of RIS, PACS, and teleradiology: Image transfer across a variety of networks and radiology modalities is common practice these days. Images are increasingly being stored as part of a patient"s electronic medical records, to be analyzed as and when required; images are often transferred over departmental networks and to teleradiology workstations for analysis[3] In such a diverse set of locations, it is common to find different types of monitors used for displaying assorted types of data.

Original dataset: The American College of Radiology (ACR) has devised guidelines for monitor displays, based on the matrix size of the original digital image dataset. Monitors for small matrix datasets [typically sourced from CT, MRI, USG, nuclear medicine (NM), digital fluorography, and digital subtraction angiography (DSA)] have different performance guidelines as compared to monitors required for large matrix datasets [e.g., sourced from digital radiography (DR), computed radiography (CR), digitized films, and digital mammography][4]. The large matrix datasets require monitors with higher performance. As a rule of thumb, the resolution of the selected display system, ideally, should match the matrix of the image acquisition data.[4]