Merge branch 'url_fix' into 'main'

      - **Longitude Direction = East** \[Longitude values increase to the

        east\]

Definitions for the geometric reference terms can be found in [Learning

About Map Projections](concepts/Learning About Map Projections)

Definitions for the geometric reference terms can be found in [Learning About Map Projections](../Camera%20Geometry%20and%20Projections/Learning%20About%20Map%20Projections.md)

## Camera Information Applications 

  - Time information (EphemerisTime, UTC)

Example (not all parameters shown):  

*Enter lat- [](fixit.wr.usgs.gov)* [*Ocentric* **](fixit.wr.usgs.gov)

*/long- [](fixit.wr.usgs.gov)* [*360* **](fixit.wr.usgs.gov) *point

location*

    campt from=xxxx.cub latitude=0.0 longitude=270.0 type=ground

Enceladus. In this example, **phocube** will generate a 6-band output

cube.

!!! Note "The image used in this example has been processed through Level1 \[ingestion, spiceinit and radiometric calibration\]. Refer to: [Working with Cassini ISS Data](Working_with_Cassini_ISS_Data)"

@TODO

!!! Note "The image used in this example has been processed through Level1 \[ingestion, spiceinit and radiometric calibration\]. Refer to: [Working with Cassini ISS Data](Camera%20Geometry.md)"

Each band will contain the information asked for (parameters set to

true) in the following command:

<figure class="inline" markdown>

  ![Cassini ISS WA-camera Enceladus](/assets/camera_geometry/Iss_WAC_enceladus_sm2.png){: style="width:225px;height:225px"}

  ![Cassini ISS WA-camera Enceladus](../../assets/camera_geometry/Iss_WAC_enceladus_sm2.png){: style="width:225px;height:225px"}

  <figcaption>Enceladus</figcaption>

</figure>

<figure class="inline" markdown>

  ![Iss\_WAC\_ema\_figure](/assets/camera_geometry/Iss_WAC_ema_figure.png "Phocube-Emission Angle Band"){: style="width:225px;height:225px"}

  ![Iss\_WAC\_ema\_figure](../../assets/camera_geometry/Iss_WAC_ema_figure.png "Phocube-Emission Angle Band"){: style="width:225px;height:225px"}

  <figcaption>Phocube: Emission Angle Band</figcaption>

</figure>

<figure markdown>

  ![Iss\_WAC\_inc\_figure](/assets/camera_geometry/Iss_WAC_inc_figure.png "Phocube Incidence Angle Band"){: style="width:225px;height:225px"}

  ![Iss\_WAC\_inc\_figure](../../assets/camera_geometry/Iss_WAC_inc_figure.png "Phocube Incidence Angle Band"){: style="width:225px;height:225px"}

  <figcaption>Phocube: Incidence Angle Band</figcaption>

</figure>

<figure class="inline" markdown>

  ![Iss\_WAC\_phase\_figure](/assets/camera_geometry/Iss_WAC_phase_figure.png "Phocube-Phase Angle Band"){: style="width:225px;height:225px"}

  ![Iss\_WAC\_phase\_figure](../..//assets/camera_geometry/Iss_WAC_phase_figure.png "Phocube-Phase Angle Band"){: style="width:225px;height:225px"}

  <figcaption>Phocube: Phase Angle Band</figcaption>

</figure>

<figure class="inline" markdown>

  ![Iss\_WAC\_lat\_figure](/assets/camera_geometry/Iss_WAC_lat_figure.png "Phocube-Latitude Band"){: style="width:225px;height:225px"}

  ![Iss\_WAC\_lat\_figure](../../assets/camera_geometry/Iss_WAC_lat_figure.png "Phocube-Latitude Band"){: style="width:225px;height:225px"}

  <figcaption>Phocube: Latitude Band</figcaption>

</figure>

<figure markdown>

  ![Iss\_WAC\_lon\_figure](/assets/camera_geometry/Iss_WAC_lon_figure.png "Phocube-Longitude Band"){: style="width:225px;height:225px"}

  ![Iss\_WAC\_lon\_figure](../../assets/camera_geometry/Iss_WAC_lon_figure.png "Phocube-Longitude Band"){: style="width:225px;height:225px"}

  <figcaption>Phocube: Longitude Band</figcaption>

</figure>

description of maps.

<figure markdown>

  ![MOLA](/assets/map_projections/Mola_of_sheet2a_thumb.jpeg "Example of a map made using data from the Mars Orbiter Laser Altimeter (MOLA)"){ width="100%" }

  ![MOLA](../../assets/map_projections/Mola_of_sheet2a_thumb.jpeg "Example of a map made using data from the Mars Orbiter Laser Altimeter (MOLA)"){ width="100%" }

</figure>

projections.

<figure markdown>

  ![Mercator Projection: The classic Mercator projection places a cylinder (rolled piece of paper) tangent to the equator.](/assets/map_projections/Mercator.gif){width="100%"}

  ![Mercator Projection: The classic Mercator projection places a cylinder (rolled piece of paper) tangent to the equator.](../../assets/map_projections/Mercator.gif){width="100%"}

  <figcaption> Mercator Projection: The classic Mercator projection places a cylinder (rolled piece of paper) tangent to the equator. </figcaption>

</figure>

Orbital Camera (MOC) instrument image that has been transformed to a

planetary image map using the Sinusoidal projection.

| ![MOC image before transformation](/assets/map_projections/MOC1.jpeg){: style="width:300px;height:300px"} | ![MOC image after sinusoidal transformation](/assets/map_projections/SinuMOC1.jpeg){: style="width:300px;height:300px"} |

| ![MOC image before transformation](../../assets/map_projections/MOC1.jpeg){: style="width:300px;height:300px"} | ![MOC image after sinusoidal transformation](../../assets/map_projections/SinuMOC1.jpeg){: style="width:300px;height:300px"} |

| --------------------------------------------------------------------- | ----------------------------------------------------------------------------------- |

| MOC image before transformation                                       | MOC image after sinusoidal transformation                                           |

Equally as important, ISIS3 allows a collection of raw instrument images

to be projected and stitched together (mosaicked) into large regional or

global maps.

global maps..

<figure markdown>

  ![Sample\_mosaic\_themis.jpeg](/assets/map_projections/Sample_mosaic_themis.jpeg "Five Mars Odyssey THEMIS instrument images that have been projected and mosaicked to generate a regional planetary image map using the Sinusoidal projection"){: style="width:100%"}

  ![Sample\_mosaic\_themis.jpeg](../../assets/map_projections/Sample_mosaic_themis.jpeg "Five Mars Odyssey THEMIS instrument images that have been projected and mosaicked to generate a regional planetary image map using the Sinusoidal projection"){: style="width:100%"}

  <figcaption> Five Mars Odyssey THEMIS instrument images that have been projected and mosaicked to generate\n a regional planetary image map using the Sinusoidal projection </figcaption>

</figure>

 End_Group

```

<figure markdown>

  ![SinuMOC1](/assets/map_projections/SinuMOC1.jpeg){: style="width:100%"}

  ![SinuMOC1](../../assets/map_projections/SinuMOC1.jpeg){: style="width:100%"}

  <figcaption> Image projected using the above mapfile </figcaption>

</figure>

<figure markdown>

  ![Cam2map\_screenshot.jpeg](/assets/map_projections/Cam2map_screenshot.jpeg "Screenshot of the cam2map application"){: style="width:400px"}

  ![Cam2map\_screenshot.jpeg](../../assets/map_projections/Cam2map_screenshot.jpeg "Screenshot of the cam2map application"){: style="width:400px"}

  <figcaption>A screenshot of the cam2map application</figcaption>

</figure>

When a camera acquires image data it is stored in a certain domain:

<figure markdown>

  ![Mars\_sphere\_illustration.png](/assets/map_projections/Mars_sphere_illustration.png "Thumbnail"){: style="width:400px"}

  ![Mars\_sphere\_illustration.png](../../assets/map_projections/Mars_sphere_illustration.png "Thumbnail"){: style="width:400px"}

  <figcaption>An illustration of the martian sphere at the 0-360 boundary</figcaption>

</figure>

the correct image is generated:

<figure markdown>

  ![180\_domain\_correct.png](/assets/map_projections/180_domain_correct.png "Thumbnail"){: style="width:400px"}

  ![180\_domain\_correct.png](../../assets/map_projections/180_domain_correct.png "Thumbnail"){: style="width:400px"}

  <figcaption>An image acquisition at the boundary using the same domain </figcaption>

</figure>

screen):  

<figure markdown>

  ![360\_domain\_incorrect.png](/assets/map_projections/360_domain_incorrect.png "Thumbnail"){: style="width:400px"}

  ![360\_domain\_incorrect.png](../../assets/map_projections/360_domain_incorrect.png "Thumbnail"){: style="width:400px"}

  <figcaption>An image acquisition at the boundary using a different domain </figcaption>

</figure>

converting from a Simple Cylindrical to Sinusoidal projection:

![SimpleCylindrical.png](/assets/map_projections/SimpleCylindrical.jpeg "Thumbnail"){: style="width:40%"}

![Blue\_right\_arrow.gif](/assets/map_projections/Blue_right_arrow.gif "Thumbnail"){: style="width:10%"}

![SinusodialProjection.jpeg](/assets/map_projections/SinusodialProjection.jpeg "Thumbnail"){: style="width:40%"}

![SimpleCylindrical.png](../../assets/map_projections/SimpleCylindrical.jpeg "Thumbnail"){: style="width:40%"}

![Blue\_right\_arrow.gif](../../assets/map_projections/Blue_right_arrow.gif "Thumbnail"){: style="width:10%"}

![SinusodialProjection.jpeg](../../assets/map_projections/SinusodialProjection.jpeg "Thumbnail"){: style="width:40%"}

Another purpose for reprojecting an image map is to get all the images

in order to mosaic. For example,

<figure class="inline" markdown>

  ![Simple\_135-110.png](/assets/map_projections/Simple_135-110.jpeg "Simple Cylindrical"){: style="width:250px;height:150px"}

  ![Simple\_135-110.png](../../assets/map_projections/Simple_135-110.jpeg "Simple Cylindrical"){: style="width:250px;height:150px"}

  <figcaption>Simple Cylindrical</figcaption>

</figure>

<figure class="inline" markdown>

  ![Sinusodial\_135-110.png](/assets/map_projections/Sinusodial_135-110.jpeg "Sinusoidal"){: style="width:250px;height:150px"}

  ![Sinusodial\_135-110.png](../../assets/map_projections/Sinusodial_135-110.jpeg "Sinusoidal"){: style="width:250px;height:150px"}

  <figcaption>Sinusoidal</figcaption>

</figure>

<figure markdown>

  ![Mosaic\_sinus.png](/assets/map_projections/Mosaic_sinus.jpeg "Sinusoidal Mosaic from Mars"){: style="width:250px;height:150px"}

  ![Mosaic\_sinus.png](../../assets/map_projections/Mosaic_sinus.jpeg "Sinusoidal Mosaic from Mars"){: style="width:250px;height:150px"}

  <figcaption>Sinusoidal Martian Mosaic</figcaption>

</figure>

```

<figure markdown>

  ![Mosaic after](/assets/map_projections/Mosaic_after.jpeg){: style="width:250px"}

  ![Mosaic after](../../assets/map_projections/Mosaic_after.jpeg){: style="width:250px"}

  <figcaption>THEMIS Mosaic</figcaption>

</figure>

  - The image data must be part of a mission instrument 'camera model'

    that is supported within ISIS

  @TODO

  - Proper ingestion of the image data into ISIS ( [**Importing Mission

    Data**](Locating_and_Ingesting_Image_Data) )

  - Available [**SPICE**](SPICE_Information) information for every

    Data**](Map%20Projecting%20Images.md) )

  @TODO

  - Available [**SPICE**](Map%20Projecting%20Images.md) information for every

    individual image

  - A [**map template**](/concepts/Learning About Map Projections) to define an

  - A [**map template**](../../concepts/Camera%20Geometry%20and%20Projections/Learning%20About%20Map%20Projections.md) to define an

    output map projection

-----

[**ISIS Supported Projections**](/concepts/Learning About Map Projections)

[**ISIS Supported Projections**](../../concepts/Camera%20Geometry%20and%20Projections/Learning%20About%20Map%20Projections.md)

  - For detailed information about Map Projections within ISIS refer to

    [Learning About Map Projections](/concepts/Learning About Map Projections) .

    [Learning About Map Projections](../../concepts/Camera%20Geometry%20and%20Projections/Learning%20About%20Map%20Projections.md) .

## Defining an Output Map 

  - In conjunction with the supplied map templates; the default for an

    output map are as follows:

      - The original [**raw camera geometry**](/concepts/Camera Geometry)

      - [**Computed parameters**](/concepts/Learning About Map Projections)

      - The original [**raw camera geometry**](../../concepts/Camera%20Geometry%20and%20Projections/Camera%20Geometry.md)

      - [**Computed parameters**](../../concepts/Camera%20Geometry%20and%20Projections/Learning%20About%20Map%20Projections.md)

      - The target body is defined in the system defaults which can be

        found in $ISISDATA/base/templates/targets/.

  - The viewing geometry of an image(s) are important details to

    consider when defining an output map projection.

      - There are a number of applications that report relevant

        [**camera geometry**](/concepts/Camera Geometry) information for a given

        [**camera geometry**](../../concepts/Camera%20Geometry%20and%20Projections/Camera%20Geometry.md) information for a given

        image or a list of images.

      - Does your input cover the north or south pole of the body?

      - Do you want your output map to be centered at a specific

      - Do you plan on mosaicking your images together?

      - An output mosaic (digital image map-DIM) is a major

        consideration before projecting multiple images. Refer to

        [**Making Mosaics**](/concepts/Learning About Map Projections).

        [**Making Mosaics**](../../concepts/Camera%20Geometry%20and%20Projections/Learning%20About%20Map%20Projections.md).

#### The Custom Map Template 

  - Concepts: 

    - Home: concepts/index.md

    - Camera Geometry and Projections:

      - Camera Geometry: concepts/Camera Geometry.md

      - Learning About Map Projections: concepts/Learning About Map Projections.md

      - Camera Geometry: concepts/Camera Geometry and Projections/Camera Geometry.md

      - Learning About Map Projections: concepts/Camera Geometry and Projections/Learning About Map Projections.md

  - Manuals: manuals/index.md

extra_css: