Method and apparatus for producing a halftone dot by selectively comparing image signals with highlight and shadow reference values or with halftone dot sub-cell reference values

US 4,736,253 A
Filed: 09/12/1984
Issued: 04/05/1988
Est. Priority Date: 10/28/1983
Status: Expired due to Fees

First Claim

Patent Images

1. A method of producing a halftone dot comprising a predetermined number of halftone dot sub-cells by making each sub-cell (ω

_m l_n) one of two colors, black or white, comprising the steps of;

(a) obtaining a value (C_mn) representative of the density of each of a predetermined number of sections of an original corresponding to the predetermined number of halftone dot sub-cells by scanning the original;

(b-1) making each halftone dot sub-cell (ω

_m l_n) one of said two colors, black or white, when the corresponding value (C_mn) is larger than a first reference value (Hi);

(b-2) making each halftone dot sub-cell (ω

_m l_n) the other of said two colors, white or black, when the corresponding value (C_mn) is smaller than a second reference value (S);

(b-3) if a value (C_mn) is between the first reference value (Hi) and the second reference value (S), determining whether the corresponding halftone dot sub-cell (ω

_m l_n) is to be black or white by comparing a value (Y) representative of the average density of said predetermined number of sections of said original with a predetermined reference value for the corresponding sub-cell (ω

_m l_n).

View all claims

1 Assignment

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

A predetermined number of sections of an original corresponding to a predetermined number of halftone dot sub-cells are scanned to generate an image signal for each section. If the image signal for a given section is greater than a highlight level reference value (Hi), the corresponding halftone dot sub-cell is made one of two colors, black or white. If the image signal for the given section is less than a shadow level reference value (S), the corresponding halftone dot sub-cell is made the other of the two colors, white or black. If the image signal for the given section falls between the highlight and shadow level reference values, it is compared witha value (Y) representing the average density of the predetermined number of sections of the original to determine whether the corresponding halftone dot sub-cell should be made black or white. When a binary density image is to be reproduced, the highlight and shadow level reference values are selected to be so close together that none of the image signals falls between them. In another embodiment which improves the fidelity of the reproduced image, the number of halftone dot sub-cells which are determined to be the one of the two colors, black or white, by comparing the image signals with corresponding halftone dot sub-cell reference values is made to be equal to the number of halftone dot sub-cells which are determined to be the one of the two colors, black or white, by comparing each of the image signals with the average density value (Y). When an original contains picture, text, and line images and completely black and white areas, appropriate values of (Hi) and (S) and appropriate values of reproduction process control signals (a) and (b) are stored in a memory and read out as a scanning head scans the corresponding areas on the original.

24 Citations

View as Search Results

8 Claims

1. A method of producing a halftone dot comprising a predetermined number of halftone dot sub-cells by making each sub-cell (ω
- _m l_n) one of two colors, black or white, comprising the steps of;
  
  (a) obtaining a value (C_mn) representative of the density of each of a predetermined number of sections of an original corresponding to the predetermined number of halftone dot sub-cells by scanning the original;
  
  (b-1) making each halftone dot sub-cell (ω
  
  _m l_n) one of said two colors, black or white, when the corresponding value (C_mn) is larger than a first reference value (Hi);
  
  (b-2) making each halftone dot sub-cell (ω
  
  _m l_n) the other of said two colors, white or black, when the corresponding value (C_mn) is smaller than a second reference value (S);
  
  (b-3) if a value (C_mn) is between the first reference value (Hi) and the second reference value (S), determining whether the corresponding halftone dot sub-cell (ω
  
  _m l_n) is to be black or white by comparing a value (Y) representative of the average density of said predetermined number of sections of said original with a predetermined reference value for the corresponding sub-cell (ω
  
  _m l_n).
- View Dependent Claims (2)
- - 2. A method as recited in claim 1 in which the first reference value (Hi) and the second reference value (S) are selected to be so close to each other that none of the values (C_mn) falls between them so that a binary density image may be faithfully reproduced.

3. A method of producing a halftone dot comprising a predetermined number of halftone dot sub-cells by making each sub-cell (ω
- _m l_n) one of two colors, black or white, comprising the steps of;
  
  (a) obtaining a value (C_mn) representative of the density of each of a predetermined number of sections of an original corresponding to the predetermined number of halftone dot sub-cells by scanning the original;
  
  (b-1) determining which of the halftone dot sub-cells should be one of said two colors, black or white, by comparing the values (C_mn) with corresponding predetermined halftone dot sub-cell reference values;
  
  (b-2) determining which of the halftone dot sub-cells should be said one of said two colors, black or white, by comparing a value (Y) representative of the average density of said predetermined number of sections of said original with each of said halftone dot sub-cell reference values;
  
  (b-3) comparing numbers (d3) and (d4) of said halftone dot sub-cells which are determined to be said one of said two colors, black or white, in steps (b-1) and (b-2), respectively;
  
  (b-4) if (d3) is not equal to (d4), determining to be said one of said two colors, black or white, a halftone dot sub-cell determined in step (b-1) to be the other of said two colors, white or black, corresponding to one of said predetermined number of sections of said original having a value (C_mn) which is closest to its corresponding predetermined halftone dot sub-cell reference value or determining to be the other of said two colors, white or black, a haltone dot sub-cell determined in step (b-1) to be said one of said two colors, black or white, corresponding to one of said predetermined number of sections of said original having a value (C_mn) which is closest to its corresponding predetermined halftone dot sub-cell reference value until (d3) is equal to (d4);
  
  (b-5) latching a signal representing the color of each of said halftone dot sub-cells as determined in steps (b-1) to (b-4);
  
  (c-1) making each halftone dot sub-cell said one of said two colors, black or white, when the corresponding value (C_mn) is larger than a first reference value (Hi);
  
  (c-2) making each halftone dot sub-cell the other of said two colors, white or black, when the corresponding value (C_mn) is smaller than a second reference value (S);
  
  (c-3) if a value (C_mn) is between the first reference value (Hi) and the second reference value (S), making the corresponding halftone dot sub-cell one of said two colors, black or white, in accordance with the signal latched in step (b-5).
- View Dependent Claims (4, 5)
- - 4. A method as recited in claim 3 in which the first reference value (Hi) and the second reference value (S) are selected to be so close to each other that none of the values (C_mn) falls between them so that a binary density image may be faithfully reproduced.
  - 5. A method as recited in claim 3, wherein said original contains picture images to be reproduced with halftone dots and binary density images such as text and line images and completely black and white areas, said method further comprising the steps of:
    - storing in a random-access memory (RAM) the locations on said original of said picture, text, and line images together with appropriate values of said first and second reference values (Hi) and (S) and appropriate values of first and second signals (a) and (b) for controlling recording of said picture, text, and line images, and storing in said random-access memory (RAM) the locations on said original of said completely black and white areas with appropriate values of said first and second signals (a) and (b) for controlling recording of said completely black and white areas; and
      
      reading out said appropriate values of said first and second reference values (Hi) and (S) and said appropriate values of said first and second signals (a) and (b) from said random-access memory (RAM) when a scanning head scanning said original reaches the corresponding locations on said original.

6. An apparatus for producing a halftone dot comprising a predetermined number of halftone dot sub-cells by making each sub-cell (ω
- _m l_n) one of two colors, black or white, said apparatus comprising;
  
  (a) density obtaining means for obtaining a value (C_mn) representative of the density of each of a predetermined number of sections of an original corresponding to the predetermined number of halftone dot sub-cells by scanning the original;
  
  (b-1) comparing means being operable for making each halftone dot sub-cell (ω
  
  _m l_n) one of said two colors, black or white, when the corresponding value (C_mn) is larger than a first reference value (Hi);
  
  (b-2) said comparing means further being operable for making each halftone dot sub-cell (ω
  
  _m l_n) the other of said two colors, white or black, when the corresponding value (C_mn) is smaller than a second reference value (S);
  
  (b-3) if a value (C_mn) is between the first reference value (Hi) and the second reference value (S), said comparing means further being operable for determining whether the corresponding halftone dot sub-cell (ω
  
  _m l_n) is to be black or white by comparing a value (Y) representative of the average density of said predetermined number of sections of said original with a predetermined reference value for the corresponding sub-cell (ω
  
  _m l_n).

7. An apparatus for producing a halftone dot comprising a predetermined number of halftone dot sub-cells by making each sub-cell (ω
- _m l_n) one of two colors, black or white, said apparatus comprising;
  
  (a) density obtaining means for obtaining a value (C_mn) representative of the density of each of a predetermined number of sections of an original corresponding to the predetermined number of halftone dot sub-cells by scanning the original;
  
  (b-1) determining means being operable for determining which of the halftone dot sub-cells should be one of said two colors, black or white, by comparing the values (C_mn) with corresponding predetermined halftone dot sub-cell reference values;
  
  (b-2) said determining means further being operable for determining which of the halftone dot sub-cells should be said one of said two colors, black or white, by comparing a value (Y) representative of the average density of said predetermined number of sections of said original with each of said halftone dot sub-cell reference values;
  
  (b-3) said determining means further being operable for comparing nunbers (d3) and (d4) of said halftone dot sub-cells which are determined to be said one of said two colors, black or white, as recited in (b-1) and (b-2), respectively;
  
  (b-4) if (d3) is not equal to (d4), said determining means further being operable for determining to be said one of said two colors, black or white, a half-tone dot sub-cell determined as recited in (b-1) to be the other of said two colors, white or black, corresponding to one of said predetermined number of sections of said original having a value (C_mn) which is closest to its corresponding predetermined halftone dot sub-cell reference value or for determining to be the other of said two colors, white or black, a halftone dot sub-cell determined as recited in (b-1) to be said one of said two colors, black or white, corresponding to one of said predetermined number of sections of said original having a value (C_mn) which is closest to its corresponding predetermined halftone dot sub-cell reference value until (d3) is equal to (d4);
  
  (b-5) said determining means further being operable for latching a signal representing the color of each of said halftone dot sub-cells as determined in (b-1) to (b-4);
  
  (c-1) comparing means being operable for making each halftone dot sub-cell said one of said two colors, black or white, when the corresponding value (C_mn) is larger than a first reference value (Hi);
  
  (c-2) said comparing means further being operable for making each halftone dot sub-cell the other of said two colors, white or black, when the corresponding value (C_mn) is smaller than a second reference value (S);
  
  (c-3) if a value (C_mn) is between the first reference value (Hi) and the second reference value (S), said comparing means further being operable for making the corresponding halftone dot sub-cell one of said two colors, black or white, in accordance with the signal latched as recited in (b-5).
- View Dependent Claims (8)
- - 8. An apparatus as recited in claim 7, wherein said original contains picture images to be reproduced with halftone dots and binary density images such as text and line images and completely black and white areas, said apparatus further comprising:
    - random-access memory (RAM) storage means for storing the locations on said original of said picture, text, and line images together with appropriate values of said first and second reference values (Hi) and (S) and appropriate values of first and second signals (a) and (b) for controlling recording of said picture, text, and line images, and for storing the locations on said original of said completely black and white areas with appropriate values of said first and second signals (a) and (b) for controlling recording of said completely black and white areas; and
      
      reading means for reading out said appropriate values of said first and second reference values (Hi) and (S) and said appropriate values of said first and second signals (a) and (b) from said random-access memory (RAM) storage means when a scanning head scanning said original reaches the corresponding locations on said original.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
SCREEN Holdings Co., Ltd.
Original Assignee
SCREEN Holdings Co., Ltd.
Inventors
Shida, Junji
Primary Examiner(s)
NOT, DEFINED
Assistant Examiner(s)
NOT, DEFINED

Application Number

US06/649,723
Time in Patent Office

1,301 Days
Field of Search

358/283, 358/75, 358/280, 358/298
US Class Current

358/2.1
CPC Class Codes

H04N 1/4055 producing a clustered dots ...

Method and apparatus for producing a halftone dot by selectively comparing image signals with highlight and shadow reference values or with halftone dot sub-cell reference values

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

24 Citations

8 Claims

Specification

Solutions

Use Cases

Quick Links

Method and apparatus for producing a halftone dot by selectively comparing image signals with highlight and shadow reference values or with halftone dot sub-cell reference values

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

24 Citations

8 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links