All The Claims

1. A droplet jetting applicator comprising:
a droplet jet head being movably provided and having a nozzle surface provided with a plurality of nozzles, the droplet jet head being configured to jet a liquid as a plurality of droplets respectively from the plurality of nozzles to an object to be coated, each of the droplets on the object having a predetermined shape, the object including a functional region subjected to ejection of the thus formed droplets from the droplet jet head in a predetermined pattern and a check region provided in a region other than the functional region;
a cleaner configured to clean the nozzle surface;
an image shooting unit configured to shoot shapes of the droplets on the object jetted by the droplet jet head; and
a controller configured to control the droplet jet head, the cleaner and the image shooting unit, and to detect the shapes of the droplets on the object shot by the image shooting unit, wherein
the controller is configured to control a preparation process which prepares coating the object and a coating process which is configured to jet the droplets to the functional region, and
the preparation process comprises
jetting the droplets from the nozzles onto the check region while moving the droplet jet head thus forming the droplets on the check region;
causing the droplet jet head to scan the droplets on the check region without jetting additional droplets;
shooting the check region by using the image shooting unit;
detecting shapes of the droplets on the check region shot by the image shooting unit and comparing each of the shapes of the droplets on the check region with the predetermined shape;
cleaning the droplet jet head by use of the cleaner after comparing each of the shapes of the droplets on the check region when the controller judges that a foreign material is deposited on the droplet jet head on the basis of each of the shapes of the droplets on the check region as a result of the comparison; and
replacing the droplet jet head after comparing each of the shapes of the droplets on the check region when the controller judges that the foreign material is deposited on the droplet jet head even after the droplet jet head is cleaned by use of the cleaner, on the basis of each of the shapes of the droplets on the check region as a result of the comparison.
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.

1. A metal display casing comprising:
a base plate comprising an edge;
a bending portion extended from the edge;
a fold-back portion connected to the bending portion, wherein the fold-back portion is folded back toward the base plate; and
a nut comprising a screw hole and riveted on the fold-back portion.
2. The metal display casing of claim 1, wherein the fold-back portion is approximately parallel to the base plate.
3. The metal display casing of claim 1, wherein a material of the metal display casing comprises aluminum.
4. The metal display casing of claim 1, wherein the nut is a countersunk head nut.
5. The metal display casing of claim 1, further comprising a hinge opening, wherein the bending portion and the fold-back portion are disposed next to the hinge opening.
6. A metal display casing comprising:
a base plate comprising an edge;
a bending portion extended from the edge;
a fold-back portion connected to the bending portion, wherein the fold-back portion is folded back toward the base plate; and
a screw hole formed on the fold-back portion, the screw hole comprising:
a punch wall, wherein a thickness of the punch wall is larger than a thickness of the base plate; and
a plurality of internal threads formed on the punch wall.
7. The metal display casing of claim 6, wherein the fold-back portion is approximately parallel to the base plate.
8. The metal display casing of claim 6, wherein a material of the metal display casing comprises aluminum.
9. The metal display casing of claim 6, further comprising a hinge opening, wherein the bending portion and the fold-back portion are disposed next to the hinge opening.
10. A display comprising:
a metal display casing comprising:
a base plate comprising an edge;
a bending portion extended from the edge;
a fold-back portion connected to the bending portion, wherein the fold-back portion is folded back toward the base plate; and
a nut comprising a screw hole and riveted on the fold-back portion;

a frame;
a display panel fixed on the frame; and
a screw to screw the frame on the fold-back portion of the metal display casing.
11. The display of claim 10, wherein the fold-back portion is approximately parallel to the base plate.
12. The display of claim 10, wherein the nut is a countersunk head nut.
13. The display of claim 10, wherein the metal display casing further comprises a hinge opening, wherein the bending portion and the fold-back portion are disposed next to the hinge opening.
14. The display of claim 13, wherein the frame comprises a hinge, and the hinge passes through the hinge opening and is screwed on the fold-back portion by the screw.
15. The display of claim 10, wherein the metal display casing comprises a corner, and the fold-back portion is disposed at the corner.
16. A display comprising:
a metal display casing comprising:
a base plate comprising an edge;
a bending portion extended from the edge;
a fold-back portion connected to the bending portion, wherein the fold-back portion is folded back toward the base plate; and
a screw hole formed on the fold-back portion, wherein the screw hole comprises a punch wall and a plurality of internal threads formed on the punch wall, wherein a thickness of the punch wall is larger than a thickness of the base plate;

a frame;
a display panel fixed on the frame; and
a screw to screw the frame on the fold-back portion of the metal display casing.
17. The display of claim 16 wherein the fold-back portion is approximately parallel to the base plate.
18. The display of claim 16 wherein the metal display casing further comprises a hinge opening, wherein the bending portion and the fold-back portion are disposed next to the hinge opening.
19. The display of claim 18 wherein the frame comprises a hinge, and the hinge passes through the hinge opening and is screwed on the fold-back portion by the screw.
20. The display of claim 16, wherein the metal display casing comprises a corner, and the fold-back portion is disposed at the corner.

1. A machine-implemented method of processing an input image, comprising:
determining, by a processor, candidate redeye areas in the input image based on redeye features extracted from the image, wherein the determining comprises associating with each of the candidate redeye areas a respective set of one or more redeye metric values each of which indicates a respective confidence that a respective one of the redeye features exists in the respective candidate redeye area;
ascertaining candidate face areas in the input image based on face features extracted from the image, wherein the ascertaining comprises associating with each of the candidate face areas a respective set of one or more face metric values each of which represents indicates a respective confidence that a respective one of the face features exists in the respective candidate face area;
assigning to each of the candidate redeye areas a respective joint metric vector comprising metric values derived from the respective set of redeye metric values and the set of face metric values associated with a selected one of the candidate face areas;
classifying each of one or more of the candidate redeye areas as either a redeye artifact or a non-redeye artifact based on the respective joint metric vector assigned to the candidate redeye area, wherein the classifying comprises for each of the one or more candidate redeye areas classifying the respective joint metric vector as being associated with either a redeye artifact or a non-redeye artifact based on a machine learning model trained on joint metric vectors comprising redeye metric values indicating respective confidences that respective ones of the redeye features exist in respective sample redeye areas and face metric values indicating respective confidences that respective ones of the face features exist in respective sample face areas; and
correcting at least one of the candidate redeye areas classified as a redeye artifact.
2. The method of claim 1, wherein each of the redeye metric values provides a respective indication of a degree to which the respective candidate redeye area corresponds to a redeye artifact, and each of the face metric values provides a respective indication of a degree to which the respective candidate face area corresponds to a face.
3. The method of claim 2, wherein the determining comprises associating with each of the candidate redeye areas a respective one of the redeye metric values corresponding to a measure of confidence that the respective candidate redeye area corresponds to a redeye artifact.
4. The method of claim 2, wherein the determining comprises associating with each of the candidate redeye areas ones of the redeye metric values providing respective indications that the candidate redeye area includes respective redeye features.
5. The method of claim 2, wherein the ascertaining comprises associating with each of the candidate face areas a respective one of the face metric values corresponding to a measure of confidence that the respective candidate face area corresponds to a face.
6. The method of claim 2, wherein the ascertaining comprises associating with each of the candidate face areas ones of the face metric values providing respective indications that the candidate face area includes respective facial features.
7. The method of claim 1, wherein the assigning comprises for each of the candidate redeye areas
selecting a respective one of the candidate face areas, and
deriving the respective joint metric vector from the respective set of redeye metric values and the set of face metric values associated with the selected candidate face area.
8. The method of claim 7, wherein the selecting comprises selecting the candidate face area located closest to the candidate redeye area in the input image.
9. The method of claim 1, wherein the classifying comprises mapping each of the respective joint metric vectors to either a redeye artifact class or a non-redeye artifact class.
10. The method of claim 9, wherein each of the joint metric vectors comprises a redeye confidence measure value indicating a degree to which the respective candidate redeye area corresponds to a redeye artifact, a face confidence measure value indicating a degree to which the selected candidate face area corresponds to a face, at least one metric value corresponding to a respective indication that the respective candidate redeye area includes a respective redeye feature, and at least one metric value corresponding to a respective indication that the selected candidate face area includes a respective facial feature.
11. The method of claim 10, wherein the mapping comprises mapping to the redeye artifact class ones of the joint metric vectors comprising respective redeye probabilities values above a first threshold value.
12. A machine-implemented method of processing an input image, comprising:
determining, by a processor, candidate redeye areas in the input image, wherein the determining comprises associating with each of the candidate redeye areas a respective set of one or more redeye metric values;
ascertaining candidate face areas in the input image, wherein the ascertaining comprises associating with each of the candidate face areas a respective set of one or more face metric values;
assigning to each of the candidate redeye areas a respective joint metric vector comprising metric values derived from the respective set of redeye metric values and the set of face metric values associated with a selected one of the candidate face areas, wherein each of the joint metric vectors comprises a redeye confidence measure value indicating a degree to which the respective candidate redeye area corresponds to a redeye artifact, a face confidence measure value indicating a degree to which the selected candidate face area corresponds to a face, at least one metric value corresponding to a respective indication that the respective candidate redeye area includes a respective redeye feature, and at least one metric value corresponding to a respective indication that the selected candidate face area includes a respective facial feature;
classifying each of one or more of the candidate redeye areas as either a redeye artifact or a non-redeye artifact based on the respective joint metric vector assigned to the candidate redeye area, wherein the classifying comprises mapping each of the respective joint metric vectors to either a redeye artifact class or a non-redeye artifact class, and the mapping comprises mapping to the redeye artifact class ones of the joint metric vectors comprising respective redeye probabilities values above a first threshold value and mapping to the redeye artifact class each of the joint metric vectors that is associated with a respective one of the candidate redeye areas that overlaps the associated candidate face area and that comprises a respective redeye probability value between the first threshold value and a second threshold value lower than the first threshold value.
13. The method of claim 1, wherein the ascertaining comprises down-sampling the input image to produce a reduced-resolution version of the input image and detecting the candidate redeye areas in the reduced-resolution version of the input image.
14. The method of claim 1, wherein the ascertaining comprises determining the candidate face areas only in regions of the input image containing coordinates of respective ones of the candidate redeye areas.
15. The method of claim 14, wherein the ascertaining comprises determining each of the candidate faces areas only in regions of the input image that contain coordinates of respective ones of the candidate redeye areas and that are delimited by a position of a respective sliding window that circumscribes only a part of the candidate face area.
16. Apparatus for processing an input image, comprising:
a memory; and
a processing unit coupled to the memory and operable to perform operations comprising
determining candidate redeye areas in the input image based on redeye features extracted from the image, wherein in the determining the processing unit is operable to perform operations comprising associating with each of the candidate redeye areas a respective set of one or more redeye metric values each of which indicates a respective confidence that a respective one of the redeye features exists in the respective candidate redeye area,
ascertaining candidate face areas in the input image based on face features extracted from the image, wherein in the ascertaining the processing unit is operable to perform operations comprising associating with each of the candidate face areas a respective set of one or more face metric values each of which represents indicates a respective confidence that a respective one of the face features exists in the respective candidate face area,
assigning to each of the candidate redeye areas a respective joint metric vector comprising metric values derived from the respective set of redeye metric values and the set of face metric values associated with a selected one of the candidate face areas,
classifying each of one or more of the candidate redeye areas as either a redeye artifact or a non-redeye artifact based on the respective joint metric vector assigned to the candidate redeye area, wherein the classifying comprises for each of the one or more candidate redeye areas classifying the respective joint metric vector as being associated with either a redeye artifact or a non-redeye artifact based on a machine learning model trained on joint metric vectors comprising redeye metric values indicating respective confidences that respective ones of the redeye features exist in respective sample redeye areas and face metric values indicating respective confidences that respective ones of the face features exist in respective sample face areas, and
correcting at least one of the candidate redeye areas classified as a redeye artifact.
17. The apparatus of claim 16, wherein each of the redeye metric values provides a respective indication of a degree to which the respective candidate redeye area corresponds to a redeye artifact, and each of the face metric values provides a respective indication of a degree to which the respective candidate face area corresponds to a face.
18. The apparatus of claim 16, wherein in the assigning the processing unit is operable to perform operations comprising for each of the candidate redeye areas
selecting a respective one of the candidate face areas, and
deriving the respective joint metric vector from the respective set of redeye metric values and the set of face metric values associated with the selected candidate face area.
19. The apparatus of claim 16, wherein in the ascertaining the processing unit is operable to perform operations comprising determining the candidate face areas only in regions of the input image containing coordinates of respective ones of the candidate redeye areas.
20. A non-transitory computer readable medium storing computer-readable instructions causing a computer to perform operations comprising:
determining candidate redeye areas in the input image based on redeye features extracted from the image, wherein the determining comprises associating with each of the candidate redeye areas a respective set of one or more redeye metric values each of which indicates a respective confidence that a respective one of the redeye features exists in the respective candidate redeye area;
ascertaining candidate face areas in the input image based on face features extracted from the image, wherein the ascertaining comprises associating with each of the candidate face areas a respective set of one or more face metric values each of which represents indicates a respective confidence that a respective one of the face features exists in the respective candidate face area;
assigning to each of the candidate redeye areas a respective joint metric vector comprising metric values derived from the respective set of redeye metric values and the set of face metric values associated with a selected one of the candidate face areas;
classifying each of one or more of the candidate redeye areas as either a redeye artifact or a non-redeye artifact based on the respective joint metric vector assigned to the candidate redeye area, wherein the classifying comprises for each of the one or more candidate redeye areas classifying the respective joint metric vector as being associated with either a redeye artifact or a non-redeye artifact based on a machine learning model trained on joint metric vectors comprising redeye metric values indicating respective confidences that respective ones of the redeye features exist in respective sample redeye areas and face metric values indicating respective confidences that respective ones of the face features exist in respective sample face areas; and
correcting at least one of the candidate redeye areas classified as a redeye artifact.
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.

1. A radio transmission device for transmitting data through a radio line, comprising:
data inputting means for inputting transmission data; input data storing means for storing the inputted transmission data temporarily;
data compression means for reading data from the data storing means to compress the data;
data transmitting means for transmitting the compressed data through the radio line; and
throughput judging means for judging throughput in the radio line.
2. A radio transmission device according to claim 1, wherein:
said input data storing means is comprised of a memory that operates using a first-in first-out method; and
said throughput judging means judges throughput according to a difference between a data writing location and a data reading location of the input data storing means.
3. A radio transmission device according to claim 1, additionally comprising:
compression rate control means for controlling a data compression rate in the data compression means according to the judged throughput.
4. A radio transmission device according to claim 3, wherein:
said compression rate control means increases a data compression rate with a decrease in throughput, and decreases the data compression rate with recovery of the throughput.
5. A radio transmission device according to claim 1, additionally comprising:
input speed control means for controlling data input speed in the data inputting means according to the judged throughput.
6. A radio transmission device according to claim 5, wherein:
said input speed control means decreases data input speed with a decrease in throughput, and increases the data input speed with recovery of the throughput.
7. A radio transmission device for transmitting data through a radio line, comprising:
data inputting means for inputting transmission data;
input data storing means for storing the inputted transmission data temporarily;
data compression means for reading data from the data storing means to compress the data;
data transmitting means for transmitting the compressed data through the radio line; and
input speed control means for controlling data input speed in the data inputting means.
8. A radio transmission device for transmitting data through a radio line, comprising:
data inputting means for inputting transmission data;
input data storing means for storing the inputted transmission data temporarily;
data compression means for reading data from the data storing means to compress the data;
data transmitting means for transmitting the compressed data through the radio line; and
said data transmitting means performs best-effort-type packet transmission, which responds to a retransmission request.
9. A radio transmission method for transmitting data through a radio line, comprising the steps of:
a data inputting step for inputting transmission data;
an input data storing step for storing the inputted transmission data temporarily;
a data compression step for reading data from the data storing means to compress the data;
a data transmitting step for transmitting the compressed data through the radio line; and
a throughput judging step for judging throughput in the radio line.
10. A radio transmission method according to claim 9, wherein:
in the input data storing step, data is written and read by means of a first-in first-out method; and
in the throughput judging step, throughput is judged according to a difference between a data writing location and a data reading location of the input data storing step.
11. A radio transmission method according to claim 9, additionally comprising the step of:
a compression rate control step for controlling a data compression rate in the data compression step according to the judged throughput.
12. A radio transmission method according to claim 11, wherein:
in the compression rate control step, a data compression rate is increased with a decrease in throughput, and the data compression rate is decreased with recovery of the throughput.
13. A radio transmission method according to claim 9, additionally comprising the step of:
an input speed control step for controlling data input speed in the data inputting step according to the judged throughput.
14. A radio transmission method according to claim 13, wherein:
in the input speed control step, data input speed is decreased with a decrease in throughput, and the data input speed is increased with recovery of the throughput.
15. A radio transmission method for transmitting data through a radio line, comprising the steps of:
a data inputting step for inputting transmission data;
an input data storing step for storing the inputted transmission data temporarily;
a data compression step for reading data from the data storing means to compress the data;
a data transmitting step for transmitting the compressed data through the radio line; and
an input speed control step for controlling data input speed in the data inputting step.
16. A radio transmission method for transmitting data through a radio line, comprising the steps of:
a data inputting step for inputting transmission data;
an input data storing step for storing the inputted transmission data temporarily;
a data compression step for reading data from the data storing means to compress the data;
a data transmitting step for transmitting the compressed data through the radio line; and
in the data transmitting step, best-effort-type packet transmission, which responds to a retransmission request, is performed.
17. A radio receiving device for receiving data through a radio line, comprising:
data receiving means for receiving compressed data through the radio line;
data decompressing means for decompressing the received data;
output data storing means for storing the decompressed data temporarily;
data outputting means for reading data from the output data storing means to output the data; and
throughput judging means for judging throughput in the radio line.
18. A radio receiving device according to claim 17, wherein:
said output data storing means is comprised of a memory that operates using a first-in first-out method; and
said throughput judging means judges throughput according to a difference between a data writing location and a data reading location of the output data storing means.
19. A radio receiving device according to claim 17, additionally comprising:
output speed control means for controlling data output speed in the data outputting means according to the judged throughput.
20. A radio receiving device according to claim 19, wherein:
said output speed control means decreases data output speed with a decrease in throughput, and increases the data output speed with recovery of the throughput.
21. A radio receiving device for receiving data through a radio line, comprising:
data receiving means for receiving compressed data through the radio line;
data decompressing means for decompressing the received data;
output data storing means for storing the decompressed data temporarily;
data outputting means for reading data from the output data storing means to output the data; and
output speed control means for controlling data output speed in the data outputting means.
22. A radio receiving device according to claim 21, wherein:
said data outputting means records data, which has been read from the output data storing means, on a given storage medium; and
said output speed control means controls data recording speed for recording on the storage medium.
23. A radio receiving device for receiving data through a radio line, comprising:
data receiving means for receiving compressed data through the radio line;
data decompressing means for decompressing the received data;
output data storing means for storing the decompressed data temporarily;
data outputting means for reading data from the output data storing means to output the data; and
said data receiving means performs best-effort-type packet transmission that issues a retransmission request in response to occurrence of a packet receiving error.
24. A radio receiving method receiving data through a radio line, comprising the steps of:
a data receiving step for receiving compressed data through the radio line;
a data decompressing step for decompressing the received data;
an output data storing step for storing the decompressed data temporarily;
a data outputting step for reading data, which has been stored temporarily, to output the data; and
a throughput judging step for judging throughput in the radio line.
25. A radio receiving method according to claim 24, wherein:
in the output data storing step, data is stored by means of a first-in first-out method; and
in the throughput judging step, throughput is judged according to a difference between a data writing location and a data reading location of the output data storing step.
26. A radio receiving method according to claim 24, additionally comprising the step of:
an output speed control step for controlling data output speed in the data outputting step according to the judged throughput.
27. A radio receiving method according to claim 26, wherein:
in the output speed control step, data output speed is decreased with a decrease in throughput, and the data output speed is increased with recovery of the throughput.
28. A radio receiving method receiving data through a radio line, comprising the steps of:
a data receiving step for receiving compressed data through the radio line;
a data decompressing step for decompressing the received data;
an output data storing step for storing the decompressed data temporarily;
a data outputting step for reading data, which has been stored temporarily, to output the data; and
an output speed control step for controlling data output speed in the data outputting step.
29. A radio receiving method according to claim 28, wherein:
in the data outputting step, data, which has been read in the output data storing step, is recorded on a given storage medium; and
in the output speed control step, data recording speed for recording on the storage medium is controlled.
30. A radio receiving method receiving data through a radio line, comprising the steps of:
a data receiving step for receiving compressed data through the radio line;
a data decompressing step for decompressing the received data;
an output data storing step for storing the decompressed data temporarily;
a data outputting step for reading data, which has been stored temporarily, to output the data; and
in the data receiving step, best-effort-type packet transmission, which issues a retransmission request in response to occurrence of a packet receiving error, is performed.
31. A radio transmittingreceiving system for transmitting data through a radio line, comprising:
a radio transmission unit comprising:
data inputting means for inputting transmission data;
input data storing means for storing the inputted transmission data temporarily by means of a first-in first-out method;
data compression means for reading data from the data storing means to compress the data; and
data transmitting means for transmitting the compressed data through the radio line;
a radio receiving unit comprising:
data receiving means for receiving transmission data through the radio line;
data decompressing means for decompressing the received data;
output data storing means for storing the decompressed data temporarily by means of a first-in first-out method;
data outputting means for reading data from the output data storing means to output the data; and
throughput judging means for judging throughput in the radio line according to a difference between a data writing location and a data reading location of the input data storing means andor the output data storing means.
32. A radio transmittingreceiving system for transmitting data through a radio line, comprising:
a radio transmission unit comprising:
data inputting means for inputting transmission data;
input data storing means for storing the inputted transmission data temporarily by means of a first-in first-out method;
data compression means for reading data from the data storing means to compress the data; and
data transmitting means for transmitting the compressed data through the radio line;
a radio receiving unit comprising:
data receiving means for receiving transmission data through the radio line;
data decompressing means for decompressing the received data;
output data storing means for storing the decompressed data temporarily by means of a first-in first-out method;
data outputting means for reading data from the output data storing means to output the data; and
throughput judging means for judging throughput in the radio line;
compression rate control means for controlling a data compression rate in the data compression means according to throughput in the radio line; and
compression rate notifying means for notifying the radio receiving unit of a compression rate parameter that has been used in the data compression means; wherein:
said data decompressing means performs data decompression processing according to the notified compression rate parameter.
33. A radio transmittingreceiving system for transmitting data through a radio line, comprising:
a radio transmission unit comprising:
data inputting means for inputting transmission data;
input data storing means for storing the inputted transmission data temporarily by means of a first-in first-out method;
data compression means for reading data from the data storing means to compress the data; and
data transmitting means for transmitting the compressed data through the radio line;
a radio receiving unit comprising:
data receiving means for receiving transmission data through the radio line;
data decompressing means for decompressing the received data;
output data storing means for storing the decompressed data temporarily by means of a first-in first-out method;
data outputting means for reading data from the output data storing means to output the data; and
said compression rate control means increases a data compression rate with a decrease in throughput, and decreases the data compression rate with recovery of the throughput.
34. A radio transmittingreceiving system for transmitting data through a radio line, comprising:
a radio transmission unit comprising:
data inputting means for inputting transmission data;
input data storing means for storing the inputted transmission data temporarily by means of a first-in first-out method;
data compression means for reading data from the data storing means to compress the data; and
data transmitting means for transmitting the compressed data through the radio line;
a radio receiving unit comprising:
data receiving means for receiving transmission data through the radio line;
data decompressing means for decompressing the received data;
output data storing means for storing the decompressed data temporarily by means of a first-in first-out method;
data outputting means for reading data from the output data storing means to output the data; and
throughput judging means for judging throughput in the radio line; and
input speed control means for controlling data input speed in the data inputting means according to throughput in the radio line.
35. A radio transmittingreceiving system according to claim 34, wherein:
said input speed control means decreases data input speed with a decrease in throughput, and increases the data input speed with recovery of the throughput.
36. A radio transmittingreceiving system for transmitting data through a radio line, comprising:
a radio transmission unit comprising:
data inputting means for inputting transmission data;
input data storing means for storing the inputted transmission data temporarily by means of a first-in first-out method;
data compression means for reading data from the data storing means to compress the data; and
data transmitting means for transmitting the compressed data through the radio line;
a radio receiving unit comprising:
data receiving means for receiving transmission data through the radio line;
data decompressing means for decompressing the received data;
output data storing means for storing the decompressed data temporarily by means of a first-in first-out method:
data outputting means for reading data from the output data storing means to output the data; and
throughput judging means for judging throughput in the radio line; and
output speed control means for controlling data output speed in the data outputting means according to the judged throughput.
37. A radio transmittingreceiving system according to claim 36, wherein:
said output speed control means decreases data output speed with a decrease in throughput, and increases the data output speed with recovery of the throughput.
38. A radio transmittingreceiving system for transmitting data through a radio line, comprising:
a radio transmission unit comprising:
data inputting means for inputting transmission data;
input data storing means for storing the inputted transmission data temporarily by means of a first-in first-out method;
data compression means for reading data from the data storing means to compress the data; and
data transmitting means for transmitting the compressed data through the radio line;
a radio receiving unit comprising:
data receiving means for receiving transmission data through the radio line;
data decompressing means for decompressing the received data;
output data storing means for storing the decompressed data temporarily by means of a first-in first-out method;
data outputting means for reading data from the output data storing means to output the data; and
said data transmitting means and said data receiving means perform best-effort-type packet transmission, by which retransmission is controlled in response to occurrence of a transmission data error.