GB1565439A – Bialphabetic teleprinter for texts in latin and arabic characters
– Google Patents
GB1565439A – Bialphabetic teleprinter for texts in latin and arabic characters
– Google Patents
Bialphabetic teleprinter for texts in latin and arabic characters
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Publication number
GB1565439A
GB1565439A
GB45798/77A
GB4579877A
GB1565439A
GB 1565439 A
GB1565439 A
GB 1565439A
GB 45798/77 A
GB45798/77 A
GB 45798/77A
GB 4579877 A
GB4579877 A
GB 4579877A
GB 1565439 A
GB1565439 A
GB 1565439A
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GB
United Kingdom
Prior art keywords
teleprinter
character
characters
arabic
alphabet
Prior art date
1976-11-03
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired
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GB45798/77A
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Olivetti SpA
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Olivetti SpA
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1976-11-03
Filing date
1977-11-03
Publication date
1980-04-23
1977-11-03
Application filed by Olivetti SpA
filed
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Olivetti SpA
1980-04-23
Publication of GB1565439A
publication
Critical
patent/GB1565439A/en
Status
Expired
legal-status
Critical
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Classifications
B—PERFORMING OPERATIONS; TRANSPORTING
B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
B41J—TYPEWRITERS; SELECTIVE PRINTING MECHANISMS, i.e. MECHANISMS PRINTING OTHERWISE THAN FROM A FORME; CORRECTION OF TYPOGRAPHICAL ERRORS
B41J3/00—Typewriters or selective printing or marking mechanisms characterised by the purpose for which they are constructed
B41J3/01—Typewriters or selective printing or marking mechanisms characterised by the purpose for which they are constructed for special character, e.g. for Chinese characters or barcodes
Description
PATENT SPECIFICATION
( 11) ( 21) Application No 45798/77 ( 22) Filed 3 Nov 1977 ( 31) Convention Application No.
69632 ( 32) Filed 3 Nov 1976 in Italy (IT) Complete Specification published 23 April 1980
INT CL 3 HO 4 L 21/00 Index at acceptance G 4 H 13 D 1 A 61 GB PD Inventors LUIGINO FERROGLIO UMBERTO RATTI ( 54) BIALPHABETIC TELEPRINTER FOR TEXTS IN LATIN AND ARABIC CHARACTERS ( 71) We, ING C OLIVETTI & C, Societa per Azioni, a body corporate organised and existing under the laws of Italy, of Via G Jervis 77, 10015 Ivrea (Turin), Italy, do hereby declare the invention, for which we pray that a Patent may be granted to us, and the method by which it is to be performed, to be particularly described in and by the following statement:This invention relates to a teleprinter for texts in alphabets of latin and arabic characters, including an alphanumeric keyboard, a printer adapted to print selectively in either of said two alphabets, and letter spacing means.
Normally for the telecommunications in the two alphabets, each teleprinting station must be provided with two separate 2 () apparatus adapted to be selectively connected to the network of the teleprinting system There are also known dot printers adapted to be controlled so as to print selectively according to either of two alphabets.
One object of the invention is to provide a bialphabetic teleprinter, wherein the alphabet can be selected through the network.
According to the invention, we now provide a bialphabetic teleprinter of the above kind, which is characterized by means for recognizing sequences of signals to condition the teleprinter to operate both in $ 5 sending and receiving according to one of said alphabets and to condition said spacing means to accordingly select the direction of letter spacing movement.
The alphabets of arabic type may be Farsi, Urdu, Pakistani, etc.
As known, the alphabet of these languages, having a limited number of phonetic letters, generally 28 letters, presents a great variety of written characters, since 4 many letters are normally written in different forms according to whether they are placed at the beginning of the word, in the body of the word, at the end of the word, or isolated Moreover, these languages present diverse syllabic combina 50 tions, in which the syllabic components differ from the corresponding letters either isolated or combined with other signs For instance the syllable constituted by the letter “I” (lam) and by the letter “a” (alef) 55 presents a form in which the letter “a” is deformed and intertwined with the letter ” 1 “, as will be better seen hereinafter.
With the development of mecanography in general, and of the typewriter in par 60 ticular, it has been sought to simplify the arabic alphabet writing, by drastically reducing the number of written characters to the detriment of the writing refinement so as not to increase the complexity of 65 the keyboard or the number of keys available to the operator.
In the conventional typewriters some characters of the alphabet can be written only in two different forms: one for the 70 characters in the body of the word and the other for the end-of-the-word characters, while for the syllable “la” a special key is often forseen which commands the writing of the syllable with a unique writ 75 ing character.
In such typewriters generally the two forms of the same letter are written by depressing the same key, upon predisposition of a shift key, as occurs for the 80 capital and small letters of the latin alphabet.
Since the letters have, in the end-of-theword form, a width considerably larger than in the other letters, such typewriters 85 are normally provided with a variable spacing device, generally able to command, besides the normal spacing, a doublespacing corresponding to this end-of-the( 33) ( 44) ( 51) ( 52) ( 72) 1 565 439 1 565 439 In the teleprinters fields, the arabic language writing has been further sacrificed to the limit of intelligibility, because of the reduced number of codes in the 5 bit S telegraphic system As known, this codification can give only 32 combinations, which double with the use of the shift.
However, since many codes are used for the numerals, for punctuation and special lo signs and for the various machine functions, it is not possible to obtain two writing forms of the arabic alphabet letters, such as it has been relinquished for the lower case letters in the latin alphabets.
is Accordingly, in a development of the invention, it is arranged that the teleprinter does not require any added code for the output of the additional characters and which reduces these characters to a minimum.
Thus there is further provide a teleprinter according to the invention, as hereinabove defined, wherein the characters are individually defined on the basis of corresponding input signals, and wherein the logic means are adapted to modify a predetermined input signal according of a preceding character of a group of arabic characters in the text, said device being characterized in that said logic means comprise memory means for storing the occurred output of determined arabic characters, substitution means being conditioned by said memory means when storing said occurred output for substituting to said predetermined input signal the signal corresponding to an additional arabic character.
According to a preferred embodiment of the invention, in which the predetermined signal corresponds to a characters indicating the end of the word, the additional character is constituted by a sign bound to the preceding character, whereby a predetermined input signal produces a different output according to whether the preceding character is placed in the body of the word or at the end of the word.
According to another embodiment of the invention, the predetermined input signal corresponds to a portion of bound syllable.
control means being provided to command the partial return of the writing point before the output of said syllable portion.
It is thus evident that the number of codes or signals necessary to command the printer is not increased by additional characters and that the length of the line is not changed by these additional characters.
These and other characteristics of the invention will become apparent from the following description of the invention, made by way of example, not limitative, in conjunction with annexed drawings, in which:
Fig 1 is a block diagram of an electronic teleprinter embodying the invention; Fig 2 is a diagram of the central unit 70 of the teleprinter; Fig 3 is a keyboard layout of the teleprinter; Fig 4 is a schematical prospective view of a dot printing device of to the tele 75 printer; Fig 5 illustrates the letters which are written in two different forms with the device of Fig 4; Fig 6 represents in enlarged scale some 80 characters obtained with the device of Fig.
4; Fig 7 is a flow chart of the operation of the control unit for the character generation; 85 Figs 8 and 9 are two flow charts of the operation of the bialphabetic teleprinter.
The teleprinter embodying the invention comprises a keyboard 10, the characters of which are coded by a keyboard en 90 coder 11 and sent character by character to a central unit 12 through an input buffer memory 13 The central unit 12 in turn sends the results or the processed text, character by character, to an output 95 buffer memory 16 This buffer memory, through a character generating unit 17, causes the data output, through a printer 18.
In the teleprinter, the input of the text 100 to be transmitted can be effected, other than through the keyboard 10, the encoder 11 and the buffer memory 13, also through a punched tape reader 21, or an answer back device 22 to transmit automatically 105 the name of the station The text furnished by the reader 21 and by the device 22 is already coded as the one furnished by the memory 13 The text to be transmitted, coming from the three sources 13, 21 and 110 22, is sent, character by character through a priority logic 23, to a serializer 24 which, through a line control unit 26, transmits in series the code combination of each character on the line 115 In reception, the code combination of the line are sent through the unit 26 to a parallelizer 27, which sends in this way to the output buffer memory 16 the text received character by character The 120 memory 16 can directly control a tape puncher 28, for punching the codes of the text, or, through the unit 17, can control the printer 18.
The central unit 12 of the teleprinter 125 of Fig 1 is of the microprogrammed tyne and controls the operations of the single units including the encoder 11, the memories 13 and 16 and the unit 17 In particular, the central unit 12 comprises a micro 130 1 565439 processor, generically indicated by the numeral 30 (Fig 2), which is constituted by an operating memory 31, having a series of operating registers, which can be selectively connected to a internal bus 32 of the data, and an arithmetic and logic unit 33 also connected to the bus 32 A decoder 34 of microinstructions sent one by one through the bus 32 and an instruction register 36, generates a series of commands, which are executed by the various units of the microprocessor 30, under the control of a timer 37.
The central unit 12 comprises moreover a read-write memory or RAM 38, organized in a plurality of registers, and a read-only memory or ROM 39, organized in a plurality of pages and containing fixed data and microprogrammes for the operation of the microprocessor 30 Part of the RAM 38 constitutes the memories 13 and 16 of the teleprinter, while part of the ROM 39 and of the microprocessor 30 constitues the character generating unit 17, as will be better seen hereinafter.
The RAM 38 and the ROM 39 are addressed by an address register 41 and are connected to the bus 32 Finally, the central unit 12 comprises an input interface 42 and an output interface 43 for the connection to the other units of the teleprinter.
According to the invention, the printer 18 can be controlled for printing texts in characters of two different alphabets, namely the latin alphabet and one of the arabic group, including Farsi, Urdu, Pakistani, etc.
The keyboard 10 (Fig 3) is formed by superimposing a standard keyboard for teleprinters operating in latin characters and a standard keyboard for teleprinters operating in arabic characters Particularly, the keyboard 10 comprises four rows of keys, which bring the latin characters of the No 2 international alphabet of the CCITT Since the corresponding telegraphic code is of the five bit type, the central unit 12 (Fig 1) each time automatically inserts, in a known manner through a portion 11 ‘ of the encoder 11, the shift codes LTRS and FGRS, which are necessary for the transmission During the operation in latin alphabet all the alphanumeric keys are enabled for the transmission Particularly, the key 110 “Wo are you?” (Fig 3) for requesting the automatic answer back, which is included in the group of codes of the shift FGRS.
generates the same five bit code 10010 of the D key.
The keyboard of the arabic alphabet is of the compact type having three rows of keys, without any automatic insertion of the shift codes The three row portion of the keyboard 10 is encircled in Fig 3 by a continuous heavy line, indicated by the numeral 112 Therefore, each key of this portion of the keyboard 10 brings one latin character and two arabic characters 70 The keyboard includes also two shift keys 113, which operate as shift only when the teleprinter operates in arabic alphabet, whereas when the teleprinter operates in latin alphabet, they control other func 75 tions or printing of specific characters In this case the keys not encircled by the line 112 remain ineffective The arabic characters are encoded by a second portion 11 ” of the encoder 11 (Fig 1) 80 In the arabic alphabet, the key “Wo are you?” is formed of the key 114 (Fig 3) which is not associated to any character of the arabic alphabet, whereby it automatically generates the code FGRS, when 85 it is required The corresponding five bit code ( 01000) is the same of the sign >_ of the group of codes of the shift LTRS.
The answer back device 22 (Fig 1) includes a pair of PROM components, which 90 are programmed as to contain two different sequeces of twenty characters each one sequence for naming the teleprinting station in latin characters and the other of naming it in arabic characters 95 The printer 18 comprises a printing head 44 (Fig 4) having nine needles 46, the writing ends of which are placed on a vertical row The needles 46 are operated individually, by as many electromagnets 1 ( O 47 energized through connectors In front of the head 44 a paper carrying platen 49 is placed on which the writing is effected through an inked-ribbon 45 The printing head 44 is transversely moved with respect 105 to the platen 49 by a stepping motor, not shown, which is controlled by a spacing control circuit 115 (Fig 1) known per se.
Since in the arabic alphabet, the text is written from right to left, the spacing 110 control 115 is adapted to cause the printing head to be letter spaced with respect to the platen selectively from left to right and from right to left The spacing step is constant for each printing character, for 115 instance 2 54 mm During a spacing step, the electromagnets 47 can be set in 13 different positions, but the same electromagnets cannot be set in two successive contiguous positions The writing is there 120 fore effected according to a 9 x 7 dot matrix, with the possibility of each needle 46 to print in the other six intermediate positions, according to the grid shown for the single characters of Fig 6 125 The direction of the spacing is selected on the circuit 115 by means of the central unit 12 according to the alphabet each time selected for printing The circuit 115 selects the direction of the movement of 130 1565439 the printing head 44 both during the printing of each character and when a carriage return or a new line function is operated by the teleprinter.
The central unit 12 is also adapted to select in response to the selected alphabet one of two portions 17 ‘ for the latin alphabet and 17 ” for the arabic alphabet, included in the character generating unit 17 The portions 17 ‘ and 17 ” are adapted to address two corresponding pages 39 ‘ and 39 ” of the ROM 39 (Fig 2) to generate the corresponding characters to be printed.
The central unit 12 controls the various units of the teleprinter according to the selected alphabet by executing the microinstructions of two different micro-programmes which can be stored either in the ROM 39 or in a suitable PROM The two programmes are coordinated by a sunervisory programme.
Particularly, each programme is adapted to cause the central unit 12 to recognize the code “Wo are you?” of the relevant aluhabet and to enable the device 22 to transmit the relevant answer back On the contrary, the code “Wo are you?” of the other alphabet is not recognized and therefore the connection in this alphabet cannot be established Since in this case the connection is not yet established, the teleprinter is not conditioned to print the character which in the selected alphabet corresponds to the “Wo are you?” code of the other alphabet.
The teleprinter is normally in a stand by condition, that is connected to the line.
In this condition the teleprinter is ready to be called by other stations, while the alphanumeric keyboard 10 is ineffective, that is electronically locked In this condition the operator can select a remote station for the connection, for example through a switching central, and thus start the transmission or the conversation Alternatively, the operator can select the off line operation wherein the teleprinter remains also ready to be called, but the transmission is locked, while the keyboard is unlocked and allows the operator to prepare a message to be transmitted later, for example by punching same on a tape.
This off line operation may be automatically interrupted at any instant by the reception of a call through the switching central This latter normally connects a plurality of stations, which can operate either in only one of the two alphabets, are selectively in the two alphabets.
The two programmes corresponding to the two alphabets can be selected through an external control, for example a key or a lever of the console or a predetermined sequence of received characters The supervisory programme can be normally predisposed for privileging one of the two alphabets, so that when the teleprinter is switched on, it normally selects the relevant programme.
According to a first embodiment, the 70 teleprinting system includes a plurality of bialphabetic teleprinting stations, adapted to be connected to a switching central and normally predisposed for operating in the latin alphabet The operator of a station 75 A, wishing to call a remote station B and to operate in one of the two alphabets, predisposes its teleprinter according to the wanted alphabet and sends the call (operation 116 in Fig 8) The central executes 80 then a routine, which firstly sends to the station A the code “Wo are you?” (W.A Y) of the latin alphabet (operation 117) Now the central effects a first logic decision 118 to state 85 whether the calling station A answers back, that is whether it is predisposed in latin In the affirmative, the central calls the remote station B (operation 119) and effects a second logic decision 90 for stating whether the called station B answers If the logic decision is yes the connection 121 is established in latin and the conversation is effected The logic decision 120 is repeated as long as for any 95 reason the station B does not answer back.
On the contrary, if the logic decision 118 is negative, that is if the station A doese not answer back, it means that it has been predisposed to operate in the 100 arabic alphabet After a predetermined delay, the central automatically sends the code “W A Y ” of the arabic alphabet (operation 122), which is now recognized by the station A Now a new logic decision 105 123 on the answer is effected, the result of which is of course positive, thus defining that the calling station A operates in arabic Now the central calls the station B (operation 124) which is followed by a 110 logic decision 125 similar to the decision When the central receives the answer back from the station B, it sends to the same station B a sequence of characters, for example the two characters RD, which 115 will cause the station B to be predisposed for operating in the arabic alphabet (operation 126) Following this sequence, the connection 121 is established and the conversation is effected 120 It is thus clear that, according to this embodiment, the connection is established by the central in the alphabet requested by the calling station and cannot be changed during the conversation unless a 125 new connection is requested.
According to another embodiment of the invention, the teleprinter comprises a PROM 130 (Fig 1), wherein a latin-arabic selecting routine is recorded for causing 130 1 565 439 the selection of the alphabet both in the off line condition of the teleprinter and in its on line condition in connection with a remote station, under the control of specific sequences of characters This routine includes the instructions necessary for recognizing the sequences corresponding to the selection of the arabic alphabet, and of the latin alphabet respectively.
To this end, the, sequence LLLL is chosen for selecting the latin and the sequence GGGG for selecting the arabic.
It is clear that for the purpose, sequence of other characters on letters can be chosen, provided that they are not corresponding to the numerals in the FGRS shift, since these numerals must be used for selecting or calling the number of the remote station.
In turn the supervisory programme, also recorded on the PROM 130, which normally privileges the latin alphabet, can be modified, through a bridge or a shunt on the same PROM 130, which suppresses an instruction, so that the arabic alphabet is privileged.
When the teleprinter is connected to the line or network, that is when the teleprinter is switched on (operation 131 in Fig 9) the supervisory programme of the PROM (Fig 1) is released This programme firstly causes a logic decision 132 (Fig 9) to state whether the selection routine is recorded in the PROM 130 If the decision is negative, that is if the station is not a bi-alphabetic one or is not allowed for selecting the alphabet, a second logic decision 133 is effected to state whether the shunt privileging the arabic alphabet is present If the decision is affirmative, the teleprinter is conditioned for operating in arabic (operation 134), if the decision is negative it is conditioned for operating in latin (operaton 135) The logic decision 133 is continuously repeated till either a command for off line operation, or a connection with a remote station (operation 136) occurs The logic decision 133 is followed by the operation 134 or 135 only if the requested operation is for the same alphabet allowed to the specific station.
At the end of the connection the programme returns again to the logic decision 133.
On the contrary, if the logic decision 132 of the latin-arabic selection routine is affirmative, that is if the station is a bialphabetic one a logic decision 137 is immediately effected for stating whether the teleprinter is already operating either on line or off line If the decision is negative, that is the teleprinter is in stand by, another logic decision 138, similar to the logic decision 133, is effected, whereby according to whether the arabic privileging shunt is present or not, the teleprinter is present for either arabic operation 139 or latin operation 141, that is according to the privileged alphabet.
The two logic decisions 137 and 138 70 are continuously repeated till either an on line or an offline operation 142 is started.
In this case the result of the logic decision 137 is positive and the operator of the local teleprinter or that of the remote call 75 ing station emits the sequence corresponding to the alphabet chosen by him (operation 143), that is either the sequence LLLL for the latin operation or the sequence GGGG for the arabic operation 80 Then a first logic decision 144 is effected for stating whether the emitted sequence is the arabic one In the affirmative both connected stations are conditioned for operating in arabic (operation 146) If not, 85 a second logic decision 147 is effected and if the result is yes both connected stations are conditioned for operating in latin (operation 148) The result of the logic decision 147 can also be negative, for 90 instance in the case an error occurs in setting up the sequence, or in the case other sequences controlling other operations are set up.
The operations 146 and 148 merely in 95 dicate the beginning of the relevant operations, whereby the routine from 137 to 148 are continuously repeated At any instant the local operator or the one of the connected station, can set up the 100 sequence corresponding to a desired one of the two alphabets (operation 143) and thus switch at will the operation of the teleprinter.
In both the above embodiments, each 105 time a connection in established according a to selected one of the two alphabets, the switching routine causes a carriage return operation to be effected in both connected teleprinters automatically under 110 the control of the spacing control circuit Therefore, the printing can start for both teleprinters from the beginning of the line according to the selected alphabet 115 The arabic alphabet has generally 28 letters According to one standardization in use for some time on mecanographic apparatus printers, one group of the 28 letters is always written with the same 120 form, independently from the position within the word, while another group of the 28 letters is written either in a short form, if the letter is at the beginning or in the body of the word, or it is written 125 in a long form, if the letter is isolated or at the end of the word.
A group of seven letters, indicated by 51 in Fig 5, have been designated which can be written in the left short form or 130 S 1 565 439 in the right long form The design of the letters is such that the difference between the long and short forms consists of adding a first tail or sign 50 bound to the short letter, which is equal for all the letters 51 Another group of four letters indicated by 52 can be written in the left short form or in the right long form, which differs from the corresponding short form by adding a second tail 55, equal for all the four letters 52.
The individual characters to be written by means of the head 44 are generated by addressing a corresponding portion 60 (Fig 2) of page 39 ” of the ROM 39 by means of a signal corresponding to this character, generally a binary code combination In this portion 60 of ROM 39, the sequence is recorded for controlling the actuations of the individual electromagnets 47 (Fig 4) during the spacing of the head 44 The space between the words, indicated by a corresponding code combination, addresses generally a portion 65 of ROM 39 (Fig 2), which does not record any actuation of the electromagnets 47.
The portions 60 and 65 of ROM 39 are addressed by the portion 17 ” of the character generating unit 17 (Fig 1) in function of the combinations received from the buffer memory 16.
If the characters of the letters 51 and 52 are to be written in the two forms, each one under the control of a corresponding code combination, eleven more code combinations would be necessary, while the ROM 39 should record also the corresponding forms of characters As it is known, in the transmission systems for five bits teleprinters, all codes available are used for controlling the printing of the characters or the functions, whereby it is not possible to find more codes for the two forms of the groups of letters 51 and 52.
On the page 39 ” of the ROM 39 (Fig.
2), two portions 53, respectively 54, are provided, to record the sequences for controlling the actuation of the electromagnets 47 (Fig 4) to write the two tails 50 and 55 (Fig 5) of the two groups of letters 51 and 52 The unit 17 (Fig 1) can address besides the two portions 53 and 54 (Fig 2) of the ROM 39, under the control of logic means, which comprise memory means adapt to store the occured output of predetermined characters In particular, these memory means comprise a first one bit register 56 of the RAM 38 to store the occured printing of one of the characters 51 and a second one bit register 57 of the RAM 38 to store the occured printing of one of the charaetcrs 52 Furthermore, the logic means comprise substitution means for substituting to the code of a spacing between the words, an address signal of the portions 56 or 57 of the RAM 38 These substitution means comprise recognition means of the codes of the letter having two forms and of the spac 70 ing code, and comparators included in the unit 33 and controlled by specific microinstructions of a particular character generating control routine, recorded in the ROM 39 75 The cbaratcter generating logic operates as follows:
When the buffer memory 16 presents in output a code combination (block 59 of Fig 7) a character generating routine is 80 fetched in sequence from the ROM 39 (Fig 2), the instructions of this routine decoded by the decoder 34 are executed by the individual units of the central unit 12 A first instruction of this routine 85 causes the unit 33 to effect a logic decision 61 (Fig 7) to establish whether the code is of a printing character or of a spacing If the code belongs to a printing character, another logic decision 62 is 90 effected to establish whether the character belongs to the group of letters 51 If the result is negative another logic decision 63 is effected to establish whether the character belongs to the group of letter 95 52 If this decision is also negative, an operation 70 is effected, in which the corresponding portion 60 (Fig 2) generatingthe control signals of the electromagnets 47 (Fig 4) is addressed, in order to print 100 the corresponding characters, for instance the charatcer 64 of Fig 6.
On the contrary, if the result of the logic decision 62 (Fig 7) or the one of the logic decision 63 gives a positive result, 105 a recording operation 66, respectively 67, is effected, by means of which the register 56, respectively 57 (Fig 2), is set, immediately allowing the operation 70 (Fig 7) for the addressing of the portion 60 of 110 ROM 39 (Fig 2) corresponding to the received code The printer 18 (Fig 1) then effects the charatcer printing of the letter 51 or 52 of short form corresponding to the received code, as indicated in Fig 6 by 115 one of the characters 68, 69 and 71 of the group of letters 51 and by one of the characters 72, 73 and 74 of the group of letters 52.
It is thus clear that the registers 56 and 120 57 (Fig 2) can store the occured output of predetermined characters, without influencing directly the printing of these characters.
On the contrary, if the code read on 125 the memory 16 (Fig 1) is the spacing code, that is the result of the logic decision 61 (Fig 7) is positive, a logic decision 76 is effected to establish whether the register 56 has been set or not If this decision is 130 1 565439 negative, that is if the register 56 has not been set, another logic decision 77 for the register 57 is effected If also this logic decision 77 gives negative result, that is if the preceding character does not belong either to the group of letter 51 (Fig 5) or to group 52, the operation 70 is effected, in which the corresponding portion 65 of the ROM 39 (Fig 2) is addressed to generate the spacing character without any other influence on the preceding printed character.
If one of the two logic decisions 76 and 77 gives a positive result, it means that the already printed preceding character, was one of the group of letters 51, respectively 52 An operation 78, respectively 79, is then effected, for substituting or replacing the address of the portion 65 of ROM 39 (Fig 2) with the portion 53, respectively 54 In the subsequent operation 70, the portion 53 or 54 generates instead of the spacing, the corresponding sign 50, respectively 55 This sign binds itself to the preceding character, whereby the latter assumes the long form, as indicated in Fig 6 for the letters 81, 82 and 83 of the group 51 and the letters 84, 85 and 86 of the group 52 Moreover, the positive result of one of the two logic decisions 76 and 77 causes a corresponding reset operation 87, respectively 88, of the relevant register 56, respectively 57 (Fig.
2), thus completing the printing routine of a letter with two forms, when it is at the end of the word.
After one of the two registers 56 or 57 has been set, if the code of another letter to be printed is read on the memory 16, that is, the letter already printed of the group 51 or 52 is not followed by a space, the negative result of the logic decision 61 (Fig 7) causes also the operation 87, or 88, to reset the register 56 or 57 set, thus completing the printing routine of a letter with two froms, when it is in the body of the word.
Accordng to another embodiment of the invention, another portion 89 of the ROM 39 (Fig 2) records another printing sign which has no corresponding code combination for the transmssion In particular, the portion 89 records a sign adapted to be placed on the letter lam represented by the numeral 91 in Fig 5, when this letter is followed by the letter alef 92, to obtain the syllable lam-alef 97 In a portion 94 of the ROM 39, a back space instruction is also recorded, to cause the return towards the right of one space of the head 44, in a known manner Furthermore, the RAM 38 comprises a one bit register 96 adapt to store the occured printing of the letter lam 91 Finally, in the ROM 39 a microprogramme routing is recorded for controlling the printing of the syllable lam-alef 97 This microprogramme routine is executed in the following way:
The reading operation 59 (Fig 7) of the memory 16 is followed by a first logic 70 decision 98 to estabish whether the code so read is an alef 92 (Fig 5) In the negative case, another logic decision 99 (Fig.
7) follows to esetablish whether the code so read is a lam 91 If also this logic 75 decision 99 gives a negative result, the operation 70 is effected, in which the portion 60 (Fig 2) corresponding to the code so read is addressed in the ROM 39, whereby the printer 18 (Fig 1) prints the 80 corresponding character, without further consequence.
On the contrary, if the decision 99 (Fig.
7) gives a positive result, besides the printing of the character lam 91 (Fig 5) an 85 operation 100 (Fig 7) is effected and the register 96 (Fig 2) is set In the case the next following code read in the memory 16 (Fig 1) is not the alef 92 (Fig 5) and is not the lam 91, such code, besides caus 90 ing the operation 70 to address the relevant portion 60 of the ROM 39 (Fig 2), causes an operation 101 (Fig 7) for resetting the register 96.
If a code read in the memory 16 (Fig 95 1) is the alef 92 (Fig 5), the positive result of the logic decision 98 (Fig 7) causes another logic decision 102 to establish if the register 96 (Fig 2) has been set or not In the negative case, the oper 100 ation 70 (Fig 7) addresses the corresponding portion 60 of the ROM 38 (Fig 2) to control the printing of the character 92 (Fig 5) Finally, if the logic decision 102 (Fig 7) gives a positive result, an 105 operation 103 is effected to address the portion 94 of the ROM 39, whereby the head 44 (Fig 4) is back spaced to the right.
Thereafter, an operation 104 (Fig 7) is 110 effected to substitute the address of the portion 60 with the one of the portion 89 of the ROM 39 (Fig 2), whereby following the operation 70 (Fig 7) the head 44 prints the inclined sign indicated by 115 in Fig 5 in the same space of the lam 91 previously printed, forming thus the composite character of the syllable lamalef 97 From what has been seen it results that no key is necessary either for 120 the lam-alef sign (Fig 5) or for the modified sign 105 To be more clear, the isolated characters lam 91 and alef 92 and the composite character lam-alef 97 are reported in Fig 6 Finally, the operation 104 125 (Fig 7) is followed by the reset operation 101 of the register 96 of the RAM 38 (Fig.
2), whereby the syllable printing routine is completed.
The two above described routines can 130 1 565439 be executed in a similar way in case the unit 17 controls a display, instead of the printer 18, whereby no further description is necessary.
It is therefore clear that both in the case of the long letters at end of the word, and in the case of syllable, no additional code is requested, besides these of the short letters and of the individual letters of the syllable It is also clear that the operator sets only the coded letters and the apparatus process and transmit only these codes, forgetting completely the additional signs or tails and the composite characters It is thus obtained an operative and constructive simplification, as well as a complete compatibility of the device with the conventional processing and transmission systems.
It is intended that various modifications, improvements and additions of parts can be made to the described teleprinter without departing from the scope of the invention as claimed For instance, the printing of the long form of the letters of groups 51 and 52 of Fig 5 can be executed rather than following the output of the spacing code, following the output of other printing or function codes, such as the full stop printing code or the codes of the tabulation functions, carriage-return etc Moreover, the device can be used to obtain other syllable or bound characters.
Finally, the teleprinter can employ other types of impact or non-impact printers, in which the characters can be selected by mechanic, electric or electronic means.
Claims (1)
WHAT WE CLAIM IS:
1 Bialphabetic teleprinter for texts in alphabets of latin and arabic characters, including an alphanumeric keyboard, a printer adapted to print selectively in either of said two alphabets, and letter spacing means, characterized by means for recognizing sequences of signals to condition the teleprinter to operate both in sending and receiving according to one of said alphabets and to condition said spacing means to accordingly select the direction of letter spacing movement.
2 Teleprinter according to claim 1, characterized in that said sequence is preceeded by the request of the automatic answer back according to either of said alphabets, means being provided for automatically generating said sequence in response to the alphabet which as been selected in connecting the teleprinter.
3 Teleprinter according to claim 1, characterized in that, said sequences are formed of a plurality of characters settable by the operator and corresponding to each one of the two alphabets, said recognizing means including sensing means cyclically controlled according to a predetermined programme in response either to the connection of the teleprinter to the netwoik or to its switching to operate off 70 line.
4 Teleprinter according any preceding claim, charaterized in that the keys of said keyboard bear the symbols of both alphabets, whereby the two keyboards are 75 superimposed in a single layout, encoding means being provided for encodng the keyboard signals according to the alphabet each time selected.
Teleprinter according, claim 4, 80 comprising a dot printer, characterized by means for generating the characters to be printed according to the received encoded signals, in response to the alphabet each time selected 85 6 Teleprinter according to any preceding claim, including a carriage movable for causing the relative letter spacing of said printer and the printing support, characterized by means controlled 90 by said recognizing means for bringing said carriage at the left end of the printing line when a latin alphabet connection occurs and at the right end of the printing line when the arabic alphabet connec 95 tion occurs.
7 Teleprinter according to any preceding claim, wherein the characters are individually defined according to corresponding input signals, and wherein logic 100 means are adapted to modify a predetermined input signal according to a preceding character of a group of arabic characters in the text, characterized in that said logic means comprise memory 105 means for storing the occured output of determined arabic characters, substitution means being conditioned by said memory means when storing said occured output for substituting to said predeter 110 mined input signal the signal corresponding to an additional arabic character.
8 Teleprinter according to claim 7, wherein said signals address a group character generating memory, character 115 ized in that said character generating memory comprises at least a portion for generating said additional character.
9 Teleprinter according to claim 8, characterized by means for recognizing 120 the signals of said group of characters adapted to be controlled by a central unit for storing in said memory means said occurred output, and means for recog nizing said predetermined signal adapted 125 to be controlled by said central unit for causing said substitution means to be conditioned by said memory means, so as to generate the signal corresponding to said additional character, said central unit 130 1 565 439 controlling said recognizing means in executing instructions furnished by a programme memory.
Teleprinter according to any claims S from 7 to 9, wherein said predetermined signal corresponds to a character indicative of the end of the word, characterized in that said additional character is formed of a sign bound to the preceding character, whereby the same input signal generates a different output whether the preceding character is placed in the body of the word or at the end of the word.
11 Teleprinter according to claim 10, 1 characterized in that said indicative character is constituted by a space between the words, said bound sign occupying a portion of said space.
12 Teleprinter according to claim 10 or 11, characterized in that at least two groups of said predetermined group characters are provided, said memory means comprising for each group of characters a register to store the occurred output of one of the characters of the group, each register being adapted to condition said substitution means so as to cause the generation of a signal corresponding to a bound sign associated to each register.
13 Teleprinter according to claim 12, characterized in that each character of each one of said groups terminate with an end in a predetermined position to be bound with the end of said bound sign.
14 Teleprinter according to any claim from 7 to 10, characterized in that said predetermined input signal corresponds to a bound syllable portion, command means being adapted to command a partial return of the writing point before the out 40 put of said syllable portion.
Teleprinter according to claim 14, characterized in that said command means are adapted to command the back space of said writing point 45 16 Teleprinter according to claim 8 and any claim from 9 to 15, characterized in that said character generating memory is adapted to control a dot printer head according to a 9 x 7 dot matrix, said 50 head being able to be letter spaced upon printing each character according to a constant spacing.
17 Teleprinter according to claim 16, characterized in that said device is em 55 bodied as a printer of a teleprinter, said input signals being encoded according to the 5 bit codes, said signal corresponding to an additional character including an address of said character generating 60 memory, said address being generated only at the instant of the printing, whereby it is not transmitted in line.
18 Bialphabetic teleprinter for texts in alphabets of latin and arabic char 65 acters, substantially as described with reference to Figs 1-9 of the annexed drawings.
REDDIE & GROSE Agents for the Applicants.
Printed for Her Majesty’s Stationery Office by The Tweeddale Press Ltd Berwick-upon-Tweed, 1980.
Published at the Patent Office 25 Southampton Buildings, London, WC 2 A IAY, from which copies may be obtained.
GB45798/77A
1976-11-03
1977-11-03
Bialphabetic teleprinter for texts in latin and arabic characters
Expired
GB1565439A
(en)
Applications Claiming Priority (1)
Application Number
Priority Date
Filing Date
Title
IT69632/76A
IT1071811B
(en)
1976-11-03
1976-11-03
DEVICE FOR DISPLAYING OR PRINTING TEXTS IN CHARACTERS OF AN ALPHABET OF THE ARABIC LANGUAGE GROUP
Publications (1)
Publication Number
Publication Date
GB1565439A
true
GB1565439A
(en)
1980-04-23
Family
ID=11312522
Family Applications (1)
Application Number
Title
Priority Date
Filing Date
GB45798/77A
Expired
GB1565439A
(en)
1976-11-03
1977-11-03
Bialphabetic teleprinter for texts in latin and arabic characters
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Link
US
(1)
US4137425A
(en)
DE
(1)
DE2749012A1
(en)
FR
(1)
FR2369937A1
(en)
GB
(1)
GB1565439A
(en)
IT
(1)
IT1071811B
(en)
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Assignee
Title
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(en)
*
1977-10-27
1984-09-20
Siemens AG, 1000 Berlin und 8000 München
Method and arrangement for transmitting characters
DE2748253B2
(en)
*
1977-10-27
1979-12-06
Siemens Ag, 1000 Berlin Und 8000 Muenchen
Method and arrangement for the optional transmission of predetermined characters or graphic patterns
CH640781A5
(en)
*
1978-02-07
1984-01-31
Lettera Arabica Sarl
MACHINE FOR COMPOSING ARABIC TEXTS AND METHOD FOR ACTIVATING THE SAME.
FR2418085A1
(en)
*
1978-02-22
1979-09-21
Abdi Mohamed
ARABIC LANGUAGE TEXT COMPOSITION DEVICE
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*
1978-07-13
1981-05-21
Siemens AG, 1000 Berlin und 8000 München
Circuit arrangement for connecting at least two teletypewriters to a common connection line
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RECORDING CONTROL DEVICE FOR POINT RECORDING MACHINE
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Method and arrangement for optimising the movement of a printing mechanism when printing characters
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DIGITAL DEVICE FOR CONTROLLING THE GRAPHIC REPRESENTATION OF CHARACTERS
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Digital Associates Corporation
Controller system or emulating local parallel minicomputer/printer interface and transferring serial data to remote line printer
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Method and means for encoding and decoding ideographic characters
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Chinese character (kanji) teleprinter or a chinese character (kanji) punching typewriter or similar apparatus
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Arabic character typing keyboard – has vowels in adjacent lines of keys forming groups of two
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1976
1976-11-03
IT
IT69632/76A
patent/IT1071811B/en
active
1977
1977-10-18
US
US05/843,280
patent/US4137425A/en
not_active
Expired – Lifetime
1977-10-28
DE
DE19772749012
patent/DE2749012A1/en
active
Granted
1977-11-03
GB
GB45798/77A
patent/GB1565439A/en
not_active
Expired
1977-11-03
FR
FR7733036A
patent/FR2369937A1/en
active
Granted
Also Published As
Publication number
Publication date
IT1071811B
(en)
1985-04-10
US4137425A
(en)
1979-01-30
DE2749012A1
(en)
1978-05-18
DE2749012C2
(en)
1988-06-09
FR2369937B1
(en)
1984-09-21
FR2369937A1
(en)
1978-06-02
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Legal Events
Date
Code
Title
Description
1980-07-09
PS
Patent sealed [section 19, patents act 1949]
1995-06-28
PCNP
Patent ceased through non-payment of renewal fee
Effective date:
19941103