837 research outputs found
Neglected factors in cancer treatment: cellular interactions and dynamic microenvironment in solid tumors
Solid tumors are "organoids" consisting of highly heterogeneous populations of malignant, stromal and inflammatory cells and dynamic extracellular matrix. In particular, distinct cellular microenvironments are observed. The survival strategies of malignant cells might therefore be highly differentiated, causing the high genotypic and phenotypic instability characteristic of malignant cells in vivo. A constant interplay between the tumor compartments and the host immune and hemostatic systems determines the behavior of the tumor. A description of typical microenvironments and of cellular and matrix interactions is provided. Based on these, it is here postulated that: (a) any cancer treatment, by influencing differently the various tumor compartments, will alter previously established equilibria; (b) the behavior (growth, invasiveness, metastatic potential, resistance to further treatment) of a malignancy after treatment might be altered with respect to what is assumed in terms of effect of the treatment on the malignant cells alone
Enzyme histochemistry and ultrastructure of liver sinusoidal cells in tumor-bearing mice
Invited pape
Tumor microcirculation and its significance in therapy: possible role fo omega-3 fatty acids as rheological modifiers
Considerations on the abnormous tumor cell microscirculation, its causes and effects and possibilities to overcome them by using omega-3 fatty acid
Language Engineering in Grammatical Framework (GF)
This thesis describes a number of practical experiments rather than theoreticalinvestigations in the area of natural language processing. The basis forthe work presented is Grammatical Framework (GF). It is a very complexsystem, which comprises among other things a grammar formalism based ontype theory and its implementation written in Haskell. GF is intended forhigh-quality machine translation (of INTERLINGUA type) in the restrictedlanguage domains.The primary concern of this thesis is however limited to the usage of GFas a piece of software. The main results are: Implementing a syntax editor, which provides a graphical user interface(GUI) for the command-line GF core. Writing a part of code for automatic generation of gramletspure Javaprograms with limited (compared to GF) functionality that can be runon PDA (Portable Device Assistants) and as applets in a browser. Writing the Russian resource grammar that takes care of the most basicmorphological and syntactic rules and serves as a standard libraryfor building application grammars (describing restricted language domains)in Russian.These results contribute to language engineering in GF on two differentlevels: Author level (end-user) constructing sentences in natural languages. Grammarian level building a grammar description, which is laterused on the author level.The last part of the thesis deals with a non-linguistic domain. In thatexperiment we try to apply functional parsing technique to the well-knownproblem of protein secondary structure prediction (bioinformatics)
Language Engineering in Grammatical Framework (GF)
This thesis describes a number of practical experiments rather than theoreticalinvestigations in the area of natural language processing. The basis forthe work presented is Grammatical Framework (GF). It is a very complexsystem, which comprises among other things a grammar formalism based ontype theory and its implementation written in Haskell. GF is intended forhigh-quality machine translation (of INTERLINGUA type) in the restrictedlanguage domains.The primary concern of this thesis is however limited to the usage of GFas a piece of software. The main results are: Implementing a syntax editor, which provides a graphical user interface(GUI) for the command-line GF core. Writing a part of code for automatic generation of gramletspure Javaprograms with limited (compared to GF) functionality that can be runon PDA (Portable Device Assistants) and as applets in a browser. Writing the Russian resource grammar that takes care of the most basicmorphological and syntactic rules and serves as a standard libraryfor building application grammars (describing restricted language domains)in Russian.These results contribute to language engineering in GF on two differentlevels: Author level (end-user) constructing sentences in natural languages. Grammarian level building a grammar description, which is laterused on the author level.The last part of the thesis deals with a non-linguistic domain. In thatexperiment we try to apply functional parsing technique to the well-knownproblem of protein secondary structure prediction (bioinformatics)
Language Engineering in Grammatial Framework (GF)
The basis for the work presented is Grammatical Framework (GF)a grammar
formalism based on type theory. It is also a powerful language processor
that provides a convenient framework for various multilingual applications.
The primary concern of this thesis is the usage of GF as a piece of software.
The main results are:
Implementing a syntax editor, which provides a graphical user interface
(GUI) for the command-line GF core.
Writing the Russian resource grammar that takes care of the most
basic morphological and syntactic rules and serves as a standard library
for building application grammars (describing sublanguage domains) in
Russian.
These results contribute to language engineering in GF on two different
levels:
Author level (end-user)constructing documents in natural languages.
Grammarian level building a grammar description, which is later
used on the author level. One can also distinguish between application
and resource grammars. An application grammar focuses of a particular
sub-language domain, while resource grammar is a general-purpose
grammar that forms a basis for application grammars
Internship at GoFoton GF Micro Optics Philippines, Inc.
This paper is a compilation of the internship of the author in the 1st semester of the academic year 2012-2013. It serves as a documentation of the activities that transpired in the internship of the author in GF Micro Optics Philippines, Inc. from May, 1012 until August, 2012.
Included in this paper are the company profile, experiences of the author in the company, and the tasks assigned while taking the training course. Process flow improvement was the main task of the author as his main role under the Industrial Engineering Department of GF Micro Optics Philippines, Inc.
Furthermore, the paper includes problems encountered and lessons learned by the author throughout the training course. These lessons include time management, co-worker management, task management, and enhancement of the authors whole being and skills such as problem solving. All are explained in this manuscript in order to provide self and academic evaluation of the authors training
Linear complexity profile of sequences over the field GF(Q)
Summary form only given. The author extends Reuppel's concept of the linear complexity profile of binary sequences to sequences over an arbitrary finite field and provides formulas for the expected linear complexity and its variance of sequences Sn of length n over GF(q). He shows that the variance approaches 1/q when q approaches ∞. He presents criteria that could be useful when using the linear complexity profile for investigating the randomness of sequences over GF(q). Finally, the author investigates how useful these criteria are by comparing the results with other randomness tests
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