I am using visualizations with Media Player 9. When I put it into Full-Screen Mode with Radio Tuner it stays that way for about one minute, then drops out of f. - Windows Media Player May Suddenly Exit from Full Screen Mode ht tp. There is also a known issue with Plenoptic visualizations not working in full screen mode. See the below.
Anda tidak boleh meneruskan untuk “ Refinance Rumah”, walaupun rumah anda bernilai RM1 juta pun tak berguna kerana tiada bank yang ingin memberi kelulusan. Tapi usah risau, kadang kadang ada cara “ ajaib” untuk menolong anda begantung kepada sebab CCRIS anda “ tak cantik”. Bank rakyat internet banking. Pertama, tengok iklan kat website yang menjual rumah dan carilah rumah yang kita nak refianance tu. Kedua, tanya agen hartanah. Biasanya agen hartanah tau sebab dia tukang jualkan rumah orang lain di kawasan tersebut. Agen hartanah pun boleh tanya jurunilai yang mereka kenal. Ketiga, tanya pegawai bank yang menguruskan loan rumah di bank berdekatan rumah yang kita nak refinance. Bank Rakyat memberi pembiayaan perumahan terbaik untuk membantu anda memiliki rumah idaman.
![Visualizations for windows media player Visualizations for windows media player](https://vignette.wikia.nocookie.net/wmpvis/images/c/c2/Ambience_Thingus.png/revision/latest?cb=20150131180902)
Systems and methods configured to store images synthesized from light field image data and metadata describing the images in electronic files and render images using the stored image and the metadata in accordance with embodiments of the invention are disclosed. One embodiment includes a processor and memory containing an encoding application and light field image data, where the light field image data comprises a plurality of low resolution images of a scene captured from different viewpoints. In addition, the encoding application configures the processor to: synthesize a higher resolution image of the scene from a reference viewpoint using the low resolution images, where synthesizing the higher resolution image involves creating a depth map that specifies depths from the reference viewpoint for pixels in the higher resolution image; encode the higher resolution image; and create a light field image file including the encoded image and metadata including the depth map.
CROSS-REFERENCE TO RELATED APPLICATION The present invention is a continuation of U.S. Patent application Ser. 14/477,396, filed Sep.
4, 2014, which is a continuation of U.S. Patent application Ser. 13/631,731, filed Sep. 28, 2012, which claims priority to U.S.
Provisional Application No. 61/540,188 entitled “JPEG-DX: A Backwards-compatible, Dynamic Focus Extension to JPEG”, to Venkataraman et al. And filed Sep.
28, 2011, the disclosures of which are incorporated herein by reference in their entirety. FIELD OF THE INVENTION The present invention relates to encoding of image files and more specifically to the encoding of light field image files. BACKGROUND The ISO/IEC 10918-1 standard, more commonly referred to as the JPEG standard after the Joint Photographic Experts Group that developed the standard, establishes a standard process for digital compression and coding of still images.
The JPEG standard specifies a codec for compressing an image into a bitstream and for decompressing the bitstream back into an image. A variety of container file formats including the JPEG File Interchange Format (JFIF) specified in ISO/IEC 10918-5 and the Exchangeable Image File Format (Exif) and can be used to store a JPEG bitstream.
![Media Media](https://d1k5w7mbrh6vq5.cloudfront.net/images/cache/21/3a/f2/213af2c570f8bef10bcc117ac294274a.png)
JFIF can be considered a minimal file format that enables JPEG bitstreams to be exchanged between a wide variety of platforms and applications. The color space used in JFIF files is YCbCr as defined by CCIR Recommendation 601, involving 256 levels. The Y, Cb, and Cr components of the image file are converted from R, G, and B, but are normalized so as to occupy the full 256 levels of an 8-bit binary encoding. YCbCr is one of the compression formats used by JPEG.
Another popular option is to perform compression directly on the R, G and B color planes. Direct RGB color plane compression is also popular when lossless compression is being applied. A JPEG bitstream stores 16-bit word values in big-endian format. JPEG data in general is stored as a stream of blocks, and each block is identified by a marker value. The first two bytes of every JPEG bitstream are the Start Of Image (SOI) marker values FFh D8h. In a JFIF-compliant file there is a JFIF APP0 (Application) marker, immediately following the SOI, which consists of the marker code values FFh E0h and the characters JFIF in the marker data, as described in the next section. In addition to the JFIF marker segment, there may be one or more optional JFIF extension marker segments, followed by the actual image data.
Overall the JFIF format supports sixteen “Application markers” to store metadata. Using application markers makes it is possible for a decoder to parse a JFIF file and decode only required segments of image data. Application markers are limited to 64K bytes each but it is possible to use the same maker ID multiple times and refer to different memory segments. An APP0 marker after the SOI marker is used to identify a JFIF file.
Additional APP0 marker segments can optionally be used to specify JFIF extensions. When a decoder does not support decoding a specific JFIF application marker, the decoder can skip the segment and continue decoding. One of the most popular file formats used by digital cameras is Exif. When Exif is employed with JPEG bitstreams, an APP1 Application marker is used to store the Exif data. The Exif tag structure is borrowed from the Tagged Image File Format (TIFF) maintained by Adobe Systems Incorporated of San Jose, Calif. SUMMARY OF THE INVENTION Systems and methods in accordance with embodiments of the invention are configured to store images synthesized from light field image data and metadata describing the images in electronic files.