You may disclose the Materials to Your subcontractor for its work on Your Products under an agreement preventing the subcontractor from disclosing the Materials to others.
Subject to the terms of this Agreement, Intel grants to You, for the Term, a limited, nonexclusive, nontransferable, revocable, worldwide, fully paid-up license under Intel’s intellectual property rights in the Materials, without the right to sublicense, to use the Materials in the development of Your Products, including modifying Materials delivered as source code, and distributing the Materials, including Your modifications, in object form, embedded in or for execution on Your Product and under terms and conditions consistent with Your rights and obligations under this Agreement. 1.5 “Your Products” means products developed or to be developed by or for You that include an Intel Component executing the Materials. 1.4 “You” or “Your” means you or you and your employer and its affiliates, whether or not capitalized.
1.3 “Materials” means software or other collateral Intel delivers to You under this Agreement. 1.2 “Intel Components” means a hardware component or product designed, developed, sold, or distributed by Intel or its affiliates. 1.1 “Including” means including but not limited to, whether or not capitalized. If You do not agree, do not use the Materials and destroy all copies. By downloading, installing, or using the Materials, You agree to these terms.
If You are accepting this Agreement on behalf of or in conjunction with Your work for Your employer, You represent and warrant that You have the authority to bind your employer to this Agreement. Another example of a multiband image is a true color orthophoto in which there are three bands, each representing either red, green, or blue light.Intel OBL Distribution (Commercial Use) License This LIMITED DISTRIBUTION LICENSE AGREEMENT (“Agreement”) is a contract between You and Intel Corporation and its affiliates (“Intel”). Band 6 collects data from the thermal infrared region. Bands 1–7, including 6, represent data from the visible, near infrared, and midinfrared regions. Landsat imagery, for example, is data collected from seven different bands of the electromagnetic spectrum. By displaying bands together as RGB composites, often more information is gleaned from the dataset than if you were to work with just one band.Ī satellite image, for example, commonly has multiple bands representing different wavelengths from the ultraviolet through the visible and infrared portions of the electromagnetic spectrum. A combination of any three of the available bands in a multiband raster dataset can be used to create RGB composites. When you create a map layer from a raster image, you can choose to display a single band of data or form a color composite from multiple bands. The term band originated from the reference to the color band on the electromagnetic spectrum. Bands can represent any portion of the electromagnetic spectrum, including ranges not visible to the eye, such as the infrared or ultraviolet sections. With multiple bands, each band usually represents a segment of the electromagnetic spectrum collected by a sensor.
When there are multiple bands, every cell location has more than one value associated with it. The three main ways to display single-band raster datasets are shown below. For more information, see Key concepts of raster dataset color maps. A set of values is coded to match a defined set of red, green, and blue (RGB) values.
Color map-One way to represent colors on an image is with a color map.These are often used for black-and-white aerial photographs. Grayscale-In a grayscale image, each cell has a value from 0 to another number, such as 255 or 65535.This type of display is often used for displaying scanned maps with simple line work, such as parcel maps. Using two colors-In a binary image, each cell has a value of 0 or 1 and is often displayed using black and white.There are three main ways to display (render) single-band raster datasets: Most satellite imagery has multiple bands, typically containing values within a range or band of the electromagnetic spectrum. You can also have a single-band orthophoto, which is sometimes called a panchromatic or grayscale image. Each cell in a DEM contains only one value representing surface elevation.
An example of a single-band raster dataset is a digital elevation model (DEM). Basically, a band is represented by a single matrix of cell values, and a raster with multiple bands contains multiple spatially coincident matrices of cell values representing the same spatial area. Some rasters have a single band, or layer (a measure of a single characteristic), of data, while others have multiple bands.