Translation Problems PDF

Summary

This document discusses translation problems, focusing on ambiguity and the differences in structure and vocabulary between languages. It also explores multiword units like idioms and collocations, which can pose challenges in translation.

Full Transcript

Translation Problems
It is useful to think of these problems under the
following headings:
1. Problems of ambiguity.
2. Problems that arise from structural and
lexical differences between languages.
3. Multiword units like idioms and
collocations.
Ambiguity
In the best of all possible words (as far as most
Natural Language Processing is concerned,
anyway) every word would have one and only
one meaning. But, as we all know, this is not the
case. When a word has more than one meaning,
it is said to be lexically ambiguous.
When a phrase or sentence can have more than
one structure it is said to be structurally
ambiguous. Ambiguity is a pervasive
phenomenon in human languages. It is very
hard to find words that are not at least two ways
ambiguous, and sentences which are (out of
context) several ways ambiguous are the rule,
not the exception.
This is not only problematic because 1- some of
the alternatives are unintended (i.e.
represent wrong interpretations), but because 1-
ambiguities ‘multiply’. In the worst case, a
sentence containing two words, each of which is
two ways ambiguous may be four ways
ambiguous.
What is Ambiguity?

1. Uncertainty or inexactness of meaning
in language.
2. Word, phrase or statement which
contains more than one meaning.
3. The quality of being open to more than
one interpretation.
What are the types of Ambiguity?

1. When a word has more than one
meaning, it is said to be lexically
ambiguous.
2. When a phrase or sentence can
have more than one structure it is
said to be structurally ambiguous.
 Why is Lexical Ambiguity
Problematic?

1. Some of the alternatives are
unintended.
2. Ambiguities ‘multiply’.
Lexical and Structural Mismatches
NLP:Natural language
processing
In the best of all possible words for NLP, every
word would have exactly one sense. While
this is true for most NLP, it is an exaggeration as
regards MT. It would be a better world, but not
the best of all possible worlds, because we would
still be faced with difficult translation problems.
Some of these problems are to do with lexical
differences between languages — differences in
the ways in which languages seem to classify
the word, what concepts they choose to express
by single words, and which they choose not to
lexicalize.
Other problems arise because different
languages use different structures for
the same purpose, and the same
structure for different purposes. In
either case, the result is that we have to
complicate the translation process.
 Why do structural mismatches
appear?

1. Lexical differences between languages —
differences in the ways in which languages
seem to classify the word.
2. Different languages use different
structures for the same purpose.
3. The same structure for different purposes.
Why is classification not so easy
when one turns to cases of
structural mismatch?
When one turns to cases of structural
mismatch, classification is not so easy because
one may often think that the reason one
language uses one construction, where another
uses another is because of the stock of lexical
items the two languages have.
Thus, the distinction is to some extent a matter
of taste and convenience. A particularly obvious
example of this involves problems arising from
what are sometimes called lexical holes —
that is, cases where one language has to use a
phrase to express what another language
expresses in a single word.

Text
The problems raised by such lexical holes have a
certain similarity to those raised by idioms: In
both cases, one has phrases translating as single
words. One kind of structural mismatch occurs
where two languages use the same
construction for different purposes, or use
different constructions for what appears to
be the same purpose.
Why do structural
mismatches occur
 What are Lexical Holes?

Lexical Holes are the cases where one
language has to use a phrase to express
what another language expresses in a
single word.
Multiword units:
Idioms
Idioms are expressions whose meaning
cannot be completely understood from
the meanings of the component parts.
For example, whereas it is possible to work out the
meaning of (a) on the basis of knowledge of English
grammar and the meaning of words, this would not be
sufficient to work out that (b) can mean something like
‘If Sam dies, her children will be rich’. This is
because kick the bucket is an idiom.
a. If Sam mends the bucket, her children will be rich.
b. If Sam kicks the bucket, her children will be rich.
In many cases, a natural
translation for an idiom will
be a single word.
Lexical holes and idioms are frequently instances of
word phrase translation. The difference is that with
lexical holes, the problem typically arises when one
translates from the language with the word into the
language that uses the phrase, whereas with idioms,
one usually gets the problem in translating from the
language that has the idiom (i.e. the phrase) into the
language which uses a single word.
In general, there are two approaches one can
take to the treatment of idioms. The first is to
try to represent them as single units in
the monolingual dictionaries.
The second approach to idioms is to treat
them with special rules that change the
idiomatic source structure into an
appropriate target structure.
 What are the problems with
sentences that contain idioms
One problem with sentences which contain
idioms is that they are typically ambiguous,
in the sense that either a literal or
idiomatic interpretation is generally
possible.
Another problem is that they need special
rules, in addition to the normal rules for
ordinary words and constructions.
The real problem with idioms is that they are
not generally fixed in their form, and
that the variation of forms is not limited
to variations in inflection. Thus, there is a
serious problem in recognizing idioms.
Machine Translation
in Practice
The Scenario
What are the Responsibilities of
the Language Centre in a company?
1. The translation of documents created within the
company into a variety of European and Oriental
languages.
2. Exercising control over the content and presentation of
company documentation in general.
3. It attempts to specify standards for the final appearance
of documents in distributed form, including style,
terminology, and content in general.
What is the Overall Policy
of the Language Centre?
The overall policy is to enshrined in the form
of a corporate Document Design and
Content Guide which the Centre
periodically updates and revises.
For what is Machine Translation to be
used in a Multinational Company?
1. Technical documentation such as User
and Repair manuals.
2. Some classes of highly routine internal
business correspondence.
3. Legal and marketing material.
What is ETRANS?
The MT system which you use is called ETRANS and
forms part of the overall documentation system.
(ETRANS is just a name we have invented for a
prototypical MT system.). Parts of an electronic
document on the system can be sent to the MT system in
the same way that they can be sent to a printer or to
another device or facility on the network. ETRANS is
simultaneously available from any workstation and, for
each person using it, behaves as if it is his or her own
personal MT system.
How are technical documents
submitted to MT system?
 Text
‫بيجي با&ختبار‬
1. All the sentences are relatively short and rather plain.
2. It must be written in accordance with the Language
Centre document specification and with MT very
much in mind.
3. There are no obvious idioms or complicated linguistic
constructions.
4. Many or all of the technical terms relating to printers
are in regular use in the company and are stored and
defined in paper or electronic dictionaries available to
the company’s technical authors and translators.
 What are the main groups
responsible for Translation in
the company?
1. Documentation managers, who specify
company policy on documentation.
2. Authors of texts who (ideally) write with MT
in mind, following certain established
Guidelines.
3. Translators who manage the translation
system in all respects pertaining to its day to
day operation and its linguistic performance.
In many cases the document management role
will be fulfilled by translators or technical
authors. For obvious reasons, there will be fairly
few individuals who are both technical authors
and translators.
What are the important entities
in the process of translation in
the company?
1. Multi-Lingual Electronic Documents which
contain text for translation.
2. The Document Preparation system which
helps to create, revise, distribute and archive
electronic documents.
3. The Translation System which operates on
source text in a document to produce a
translated text of that document.
What are the various processes
or steps in the whole business?
1. Document Preparation (which includes authoring
and pre-editing).
2. The Translation Process, mediated by the
translation system, perhaps in conjunction with
the translator.
3. Document Revision (which is principally a matter
of post-editing by the translator).
Document Preparation
Authoring and Pre-Editing
 What does the corporate
language policy as described in the
scenario try to do?

The corporate language policy as described in
the scenario tries to ensure that text which is
submitted to an MT system is written in a way
which helps to achieve the best possible raw MT
output.
What are the basic
writing rules?
1. Keep sentences short.
2. Make sure sentences are grammatical.
3. Avoid complicated grammatical constructions.
4. Avoid words which have several meanings.
5. In technical documents, only use technical
words and terms which are well established,
well defined and known to the system.
Types of Machine Translation
according to the Users
1. Machine Translation for Watcher (MT-W)
2. Machine Translation for Revisers (MT-R)
3. Machine Translation for Translators (MT-T)
4. Machine Translation for Authors (MT-A)
Machine Translation for Watcher (MT-W)

This is intended for readers who wanted to gain access
to some information written in foreign language who
are also prepared to accept possible bad translation
rather than nothing. This came in with the need to
translate military technological documents. This was
almost the dictionary based translation far away from
linguistic based machine translation. OR RBMT
 Machine Translation for
Revisers (MT-R)

This type aims at producing raw translation
automatically with a quality comparable to that of
the first drafts produced by human. The translation
output can be considered only as brush-up so that
the professional translator freed from that very
boring and time consuming task can be promoted to
revisers.
Machine Translation for Translators
(MT-T)

This aims at helping human translators do their job by
providing on-line dictionaries, thesaurus and translation
memory. This type of machine translation system is
usually incorporated into the translation work stations
and the PC based translation tools. And those systems
running on standard platforms and integrated with
several text processors are the ones that attained
operational and commercial success.
Machine Translation for Authors
(MT-A).

This aims at authors wanting to have their texts
translated into one or several languages and
accepting to write under control of the system or to
help the system disambiguate the utterance so that
satisfactory translation can be obtained without any
revision.
This is an “interactive MT, The interaction was
however done both during analysis and during
transfer, and not by authors, but by specialists of the
system and language(s).” In short, there have been no
operational successes yet in MT-A, but the designs are
becoming increasingly user oriented and geared
towards the right kind of potential users, people users,
people needing to produce translations, preferably
into several languages.
 Evaluation of
Machine Translation Systems
Evaluating Machine translation system is important
not only for its potential users and buyers, also to
researchers and developers. Various types of evaluation
have been developed, such as :
1. BLEU (BiLingual Evaluation Understudy)
2. WER (Word Error Rate)
3. PER (Position-independent word Error Rate)
4. TER (Translation Error Rate)
1. BLEU (BiLingual Evaluation
Understudy)
The BLEU metric, proposed by Papineni in 2001 was
the first automatic measurement accepted as a
reference for the evaluation of translations. The
principle of this method is to calculate the degree of
similarity between candidate (machine) translation
and one or more reference translations based on the
particular n-gram precision.
2. WER (Word Error Rate)

It is used in machine translation to evaluate the
quality of a translation hypothesis in relation to a
reference translation. The idea is to calculate the
minimum number of edits (insertion, deletion or
substitution of the word) to be performed on
hypothesis translation to make it identical to the
reference translation.
3. PER (Position-independent word
Error Rate)

The PER metric compares the words of machine
translation with those of the reference regardless of
their sequence in the sentence.
4. TER (Translation Error Rate)

It is defined as the minimum number of edits needed
to change a hypothesis so that it exactly matches one
of the references. The possible edits in TER include:
1. Insertion.
2. Deletion.
3. Substitution of single words.
4. An edit which moves sequences of contiguous
words.
 The Importance
of
Machine Translation
The topic of MT is one that we have found sufficiently
interesting to spend most of our professional lives
investigating, and we hope the reader will come to share, or
at least understand, this interest. But whatever one may
think about its intrinsic interest, it is undoubtedly an
important topic — socially, politically, commercially,
scientifically, and intellectually or philosophically.
Why MT Matters

1. The social or political importance.
2. The commercial importance.
3. Scientifically importance.
4. Philosophically and intellectually importance.
1. The social or political importance of MT arises
from the socio-political importance of
translation in communities where more than
one language is generally spoken.
2. The commercial importance of MT is a result
of related factors:
a. Translation itself is commercially
important.
b. Translation is expensive.
3. Scientifically, MT is interesting, because it is an obvious
application and testing ground for many ideas in Computer
Science, Artificial Intelligence, and Linguistics, and some of the
most important developments in these fields have begun in MT.
4. Philosophically and intellectually, MT is interesting,
because it represents an attempt to automate an activity that can
require the full range of human knowledge — that is, for any
piece of human knowledge, it is possible to think of a context
where the knowledge is required.
Popular Misconceptions
1. False: MT is a waste of time because you will never make a machine
that can translate Shakespeare.
2. False: There was/is an MT system which translated The spirit is
willing, but the flesh is weak into the Russian equivalent of The vodka
is good, but the steak is lousy, and hydraulic ram into the French
equivalent of water goat. MT is useless.
3. False: Generally, the quality of translation you can get from an MT
system is very low. This makes them useless in practice.
4. False: MT threatens the jobs of translators.
5. False: The Japanese have developed a system that you can talk to on
the phone. It translates what you say into Japanese, and translates the
other speaker’s replies into English.
6. False: There is an amazing South American Indian language with a
structure of such logical perfection that it solves the problem of
designing MT systems.
7. False: MT systems are machines, and buying an MT system should
be very much like buying a car.
 Popular Conceptions
Some Facts about MT
1. True: MT is useful. The METEO system has been in daily
use since 1977. As of 1990, it was regularly translating
around 45 000 words daily. In the 1980s, The diesel engine
manufacturers Perkins Engines was saving around £ 4 000
and up to 15 weeks on each manual translated.
2. True: While MT systems sometimes produce howlers, there
are many situations where the ability of MT systems to
produce reliable, if less than perfect, translations at high
speed is valuable.
3. True: In some circumstances, MT systems can produce
good quality output: less than 4% of METEO output
requires any correction by human translators at all (and most
of these are due to transmission errors in the original texts).
Even where the quality is lower, it is often easier and
cheaper to revise ‘draft quality’ MT output than to translate
entirely by hand.
4. True: MT does not threaten translators’ jobs. The need for
translation is vast and unlikely to diminish, and the limitations of
current MT systems are too great. However, MT systems can take
over some of the boring, repetitive translation jobs and allow
human translation to concentrate on more interesting tasks, where
their specialist skills are really needed.
5. True: Speech-to-Speech MT is still a research topic. In general,
there are many open research problems to be solved before MT
systems will be come close to the abilities of human translators.
6. True: Not only are there are many open research problems in MT,
but building an MT system is an arduous and time consuming job,
involving the construction of grammars and very large
monolingual and bilingual dictionaries. There is no ‘magic
solution’ to this.
7. True: In practice, before an MT system becomes really useful, a
user will typically have to invest a considerable amount of effort in
customizing it.
Rule-Based Machine Translation (RBMT)
VS
Statistical Machine Translation (SMT)
What is Machine Translation?
Machine translation (MT) is automated translation or
“translation carried out by a computer”, as defined in
the Oxford English dictionary. It is a process,
sometimes referred to as Natural Language Processing
which uses a bilingual data set and other language
assets to build language and phrase models used to
translate text.
 As computational activities become more
mainstream and the internet opens up the
wider multilingual and global community,
research and development in Machine
Translation continues to grow at a rapid rate.
What are the MT systems available in
the market?

1. Statistical Machine Translation (SMT).
2. Rule-Based Machine Translation (RBMT).
3. Hybrid Systems, which combine RBMT and SMT.
Human vs. Machine
Translation
What must be done in any translation,
whether human or automated?

In any translation, whether human or automated,
the meaning of a text in the source (original)
language must be fully transferred to its equivalent
meaning in the target language’s translation. While
on the surface this seems straightforward, it is often
far more complex. Translation is never a mere
word-for-word substitution.
What must a human translator do?

A human translator must interpret and
analyze all of the elements within the text and
understand how each word may influence the
context of the text.
What does human translator’s work
require?

Human translator’s work requires extensive
expertise in grammar, syntax (sentence
structure), semantics (meanings), etc., in the
source and target languages, as well as expertise
in the domain.
 Types of Making Machine
Translation Systems
(Machine Translation Engines)
Rule-Based Machine Translation
(RBMT) Technology
On what does RBMT rely?

RBMT relies on countless built-in
linguistic rules and millions of bilingual
dictionaries for each language pair.
How does RBMT system work?

The RBMT system parses text and creates a transitional
representation from which the text in the target
language is generated. This process requires extensive
lexicons with morphological, syntactic, and semantic
information, and large sets of rules. The software uses
these complex rule sets and then transfers the
grammatical structure of the source language into the
target language.
On what are RBMT systems built?

Rule-based Machine Translation systems are built on
gigantic dictionaries and sophisticated linguistic
rules. Users can improve translation quality by
adding terminology into the translation process by
creating user-defined dictionaries, which override the
system's default settings.
While rule-based MT may bring a company to a
reasonable quality threshold, the quality
improvement process is generally long,
expensive and needs to be carried out by trained
experts. This has been a contributing factor to
the slow adoption and usage of MT in the
localization industry.
Statistical Machine Translation
(SMT) Technology
What does SMT do?

SMT utilizes statistical translation
models generated from the analysis of
monolingual and bilingual training data.
 What does SMT use?

It uses computing power to build sophisticated
data models to translate one source language
into another. The translation is selected from
the training data using algorithms to select the
most frequently occurring words or phrases.
 How is SMT building models?

Building SMT models is a relatively quick and
simple process which involves uploading files to
train the engine for a specific language pair and
domain. A minimum of two million words is
required to train an engine for a specific domain,
however it is possible to reach an acceptable
quality threshold with much less.
On what does SMT technology rely?

SMT technology relies on bilingual corpora such as
translation memories and glossaries to train it to
learn language pattern, and is uses monolingual
data to improve its fluency. SMT engines will prove
to have a higher output quality if trained using
domain specific training data such as; medical,
financial or technical domains.
SMT technology is CPU intensive and requires an
extensive hardware configuration to run translation
models at acceptable performance levels. Because of
this, cloud-base systems are preferred, whereby they
can scale to meet the demands of its users without
the users having to invest heavily in hardware and
software costs.
RBMT vs. SMT
 RBMT SMT
RBMT can achieve good results but the SMT systems can be built in much less
training and development costs are time and do not require linguistic
very high for a good quality system. In experts to apply language rules to the
terms of investment, the customization system.
cycle needed to reach the quality
threshold can be long and costly.
RBMT systems are built with much less SMT models require state-of the-art
data than SMT systems, instead using computer processing power and storage
dictionaries and language rules to capacity to build and manage large
translate. This sometimes results in a translation models.
lack of fluency.
Language is constantly changing, which SMT systems can mimic the style of the
means rules must be managed and training data to generate output based
updated where necessary in RBMT on the frequency of patterns allowing
systems. them to produce more fluent output.
 The Verdict
(A Decision-Judgement)
Statistical Machine Translation technology is growing in
acceptance and is by far, the clear leader between both
technologies. The increasing availability of cloud-based
computing is providing a solution to the high computer
processing power and storage capacity required to run
SMT technology effectively, making SMT a game changer
for the localization industry.
Training data for SMT engines is becoming more widely
available, thanks to the internet and the increasing
volumes of multilingual content being created by both
companies and private internet users. High quality aligned
bilingual corpora is still expensive and time consuming to
create but, once created becomes a valuable asset to any
organization implementing SMT technology, with
translations benefiting from economies of scale over time.
Machine Translation
ENG 391
Academic Year (1445)
Semester (452)
Section (810)
Course Dr. Khalid Abdurrahman Jabir Othman
Instructor

College College of Sciences and Arts – Ar Rass

Tel Number 0163012144

Email [email protected]

Office Hours Sunday + Monday:10-10:50, Tuseday: 9-9:50,
Wednesday: 8-10
Course Objective

This course aims to familiarize students with
machine translation by explaining its theories
and to present students to a variety of machine
translation methodologies which ultimately will
assist them in their practice of translation in
general.
Topics to be covered
No Topic Week No. Contact
Hours
1 Introduction to machine translation 1-2 6
Aims, needs, and state of the art of machine 3-4 6
2 translation.-Advantages and disadvantages of
machine translation
3 Theory and Approaches for MT 5-6 3

4 Discussion of Pre-editing and Post-editing 7-8-9 3
5 Human translation theory and practice. 10-11 6
6 The Future of Machine Translation 12-13 6
Presentation of various free automatic translation 14-15 3
7
tools on web and evaluation of results.
Samples of Google translation (In-class Practice) All Along 12
8
Prescribed textbook

Nirenburg, Sergei (ed.) (1987) "Machine
Translation: Theoretical and Methodological
Issues", Cambridge University Press.
“A compiled coursebook is available”
 Assessment Tools
No Assessment task Week due Assessment
Tools

1 Translation Practice All along 10%

2 Quiz-1 5 5%

3 Quiz-2 11 5%

4 Project 12 5%

5 Midterm Exam 9 25%

6 Final Exam TBA 50%
General Introduction and
Brief History
The mechanization of translation has been one of
humanity’s oldest dreams. In the twentieth century
it has become a reality, in the form of computer
programs capable of translating a wide variety of
texts from one natural language into another. There
are no ‘translating machines’ which can take any
text in any language and produce a perfect
translation in any other language without human
intervention or assistance.
What has been achieved is the development of
programs which can produce ‘raw’ translations
of texts in relatively well-defined subject
domains, which can be revised to give good-
quality translated texts at an economically viable
rate or which in their unedited state can be read
and understood by specialists in the subject for
information purposes.
In some cases, with appropriate controls on the
language of the input texts, translations can be
produced automatically that are of higher quality
needing little or no revision. These are solid
achievements by what is now traditionally called
Machine Translation (henceforth in this book,
MT), but they have often been obscured and
misunderstood.
 What is the public perception of
Machine Translation?
1. There are those who are unconvinced that there is
anything difficult about analyzing language, since even
young children are able to learn languages so easily; and
who are convinced that anyone who knows a foreign
language must be able to translate with ease.
2. There are those who believe that because automatic
translation of Shakespeare, Goethe, Tolstoy and lesser
literary authors is not feasible there is no role for any
kind of computer-based translation.
The aims of Machine
Translation
 What are the fields for the great
majority of professional translators?
1. Translations of scientific and technical documents,
2. Commercial and business transactions,
3. Administrative memoranda,
4. Legal documentation,
5. Instruction manuals,
6. Agricultural and medical text books,
7. Industrial patents, publicity leaflets,
8. Newspaper reports, etc.
How is the practical
Text usefulness
of an MT system determined
The practical usefulness of an MT system is
determined ultimately by the quality of its output.
But what counts as a ‘good’ translation, whether
produced by human or machine, is an extremely
difficult concept to define precisely. Much depends
on the particular circumstances in which it is made
and the particular recipient for whom it is intended.
What are the criteria which can be
applied to determine the practical
usefulness of an MT system?

1. Fidelity.
2. Accuracy.
3. Intelligibility.
4. Appropriate style and register.
 The major obstacles to translating by computer are, as
they have always been, not computational but linguistic.

The problems of:
1. lexical ambiguity,
2. syntactic complexity,
3. vocabulary differences between languages,
4. elliptical and ‘ungrammatical’ constructions,
5. extracting the ‘meaning’ of sentences and texts from
analysis of written signs and producing sentences
and texts in another set of linguistic symbols with an
equivalent meaning.
MT is not in itself an independent field of 'pure'
research. It takes from
1. linguistics,
2. computer science,
3. artificial intelligence,
4. translation theory,
5. any ideas, methods and techniques which may
serve the development of improved systems.
What is machine Translation?

The term Machine Translation (MT) is the
now traditional and standard name for
computerised systems responsible for the
production of translations from one
natural language into another, with or
without human assistance.
 How can the translation quality of
MT be improved?

The translation quality of MT systems may be
improved by:
1. Developing better methods.
2. Imposing certain restrictions on the
input.
 According to what are MT systems designed?

(1) according to number of languages:
a. for one particular pair of languages (bilingual systems).
b. for more than two languages (multilingual systems).
(2) according to translation direction:
a. in one direction only (uni-directional systems).
b. in both directions (bi-directional systems).
What are the three basic types
in the overall system design?
1. The direct translation approach:
The MT system is designed in all details specifically for one
particular pair of languages in one direction, the source language
and the target language. Source texts are analysed no more than
necessary for generating texts in the other language.
2. The interlingua approach:
Which assumes the possibility of converting texts to and from
‘meaning’ representations common to more than one language.
3. The less ambitious transfer approach:
Rather than operating in two stages through a single interlingual
meaning representation, there are three stages involving, usually,
syntactic representations for both source and target texts.
What are the stages of translation
in the interlingua approach?

1. From the source language to the interlingua,
2. And from the interlingua into the target
language.
 What are the stages of translation in
the less ambitious transfer approach?

1. The first stage converts texts into intermediate
representations in which ambiguities have been
resolved irrespective of any other language.
2. In the second stage these are converted into equivalent
representations of the target language; and
3. In the third stage, the final target texts are generated.
Analysis and Generation programs are
specific for particular languages and
independent of each other. Differences between
languages, in vocabulary and structure, are
handled in the intermediary transfer program.
stages of analysis and
generation
Within the stages of analysis and generation, most MT
system exhibit clearly separated components dealing
with different levels of linguistic description. Hence,
analysis may be divided into:
1. morphological analysis.
2. syntactic analysis.
3. semantic analysis.
History of Machine
Translation
Introduction

Over the years, Machine Translation has been a focus
of investigations by linguists, psychologists,
philosophers, computer scientists and engineers. It
will not be an exaggeration to state that early work on
MT contributed very significantly to the development
of such fields as computational linguistics, artificial
intelligence and application-oriented natural
language processing.
Definition

Machine translation, commonly known as MT, can
be defined as “translation from one natural language
(source language (SL)) to another language (target
language (TL)) using computerized systems and,
with or without human assistance.
What are the four (4) points through
which the MT has been developed?

1. Surveys the chronological development of
machine translation.
2. The different approaches developed (linguistic
and computational).
3. The types of machine translation.
4. How to evaluate a machine translation.
History of Machine
Translation
Although we may trace the origins of machine
translation (MT) back to seventeenth century ideas
of universal (and philosophical) languages and of
‘mechanical’ dictionaries, it was not until the
twentieth century that the first practical
suggestions could be made. The history of machine
translation can be divided into five (5) periods
1. First period (1948-1960): The beginning.
2. Second Period (1960-1966): Parsing and
disillusionment.
3. Third period (1966-1980): New birth and hope.
4. Fourth Period (1980-1990): Japanese invaders.
5. Fifth Period (since 1990): The Web and the new
vague of translators.