Your search keyword '"Savoska, Snezana"' showing total 13 results

1. Integration of heterogeneous medical and biological data with electronic personal health records

Author

Savoska, Snezana, Ristevski, Blagoj, Blazheska-Tabakovska, Natasha, Jolevski, Ilija, Bocevska, Andrijana, and Trajkovik, Vladimir

Subjects

electronic health records, personal health records, internet of medical things, data integration, omics data, healthcare information system, Computer applications to medicine. Medical informatics, R858-859.7, Infectious and parasitic diseases, RC109-216

Abstract

The shortage of data for patients with chronic and other diseases and previous medical treatments shows significant weakness in the diagnosis and treatment of patients. Due to the healthcare system insufficiency, patients with comorbidities might not survive the diseases, especially when the disease is novel. The lack of information on patients’ genetic disorders, especially when they are unaware of them, also contributes to increased patient deaths. This conveys the necessity to integrate medical and health data with various biological omics and other data, especially in pandemic circumstances. Patients’ health data matters are apparent, but they are stored in multiple hospitals and health systems such as electronic health records (EHRs), healthcare institutions, and laboratories. Furthermore, biological data are often not integrated and cannot be used by patients, physicians, and specialists to treat particular diseases. Although the urgent need for healthcare and medical data integration is apparent, personal data protection regulations are severe. They do not allow much progress in the area without implementing security and privacy standards for patient healthcare data. One solution for this issue is setting a personal health record (PHR) as an integrative system for the patient. Many ontological frameworks have been proposed to unify the record formats, but none of them is accepted as a healthcare standard. The efforts toward approving the Health Level Seven (HL7) standards and the common medical coding systems ensure further data integration. Some efforts are made to associate particular diseases with data obtained from external environmental sensors that measure disease-associated data. Using these data, which are called exposome, the increasing symptoms of particular diseases influenced by external factors can be clarified. This paper suggests a cloud-based model for integrating healthcare and medical data from different sources such as EHRs, health information systems, and measurement sensors into the PHR as the first stage toward integrating patient health data. Besides the patients’ personal and clinical data, various omics data should be integrated for improved individualized disease prognosis and treatment of the patients. These data are stored in the cloud following the required data security and privacy standards.

Published

2023

2. Toward the creation of an ontology for the coupling of atmospheric electricity with biological systems

Author

Savoska, Snezana, Fdez-Arroyabe, P., Cifra, M., Kourtidis, K., Rozanov, E., Nicoll, K., Dragovic, S., and Mir, L. M.

Published

2021

3. Glossary on atmospheric electricity and its effects on biology

Author

Fdez-Arroyabe, Pablo, Kourtidis, Konstantinos, Haldoupis, Christos, Savoska, Snezana, Matthews, James, Mir, Lluis M., Kassomenos, Pavlos, Cifra, Michal, Barbosa, Susana, Chen, Xuemeng, Dragovic, Snezana, Consoulas, Christos, Hunting, Ellard R., Robert, Daniel, van der Velde, Oscar A., Apollonio, Francesca, Odzimek, Anna, Chilingarian, Ashot, Royé, Dominic, Mkrtchyan, Hripsime, Price, Colin, Bór, József, Oikonomou, Christina, Birsan, Marius-Victor, Crespo-Facorro, Benedicto, Djordjevic, Milan, Salcines, Ciro, López-Jiménez, Amparo, Donner, Reik V., Vana, Marko, Pedersen, Jens Olaf Pepke, Vorenhout, Michel, and Rycroft, Michael

Published

2021

4. Glossary on atmospheric electricity and its effects on biology

Author

Universitat Politècnica de València. Departamento de Ingeniería Hidráulica y Medio Ambiente - Departament d'Enginyeria Hidràulica i Medi Ambient, European Cooperation in Science and Technology, Ministry of Science and Higher Education, Polonia, Fdez-Arroyabe, Pablo, Kourtidis, Konstantinos, Haldoupis, Christos, Savoska, Snezana, Matthews, James, Mir, Luis M., Kassomenos, Pavlos, Cifra, Michal, Barbosa, Susana, Chen, Xuemeng, Dragovic, Snezana, Consoulas, Christos, Hunting, Ellard R., Robert, Daniel, López Jiménez, Petra Amparo, Universitat Politècnica de València. Departamento de Ingeniería Hidráulica y Medio Ambiente - Departament d'Enginyeria Hidràulica i Medi Ambient, European Cooperation in Science and Technology, Ministry of Science and Higher Education, Polonia, Fdez-Arroyabe, Pablo, Kourtidis, Konstantinos, Haldoupis, Christos, Savoska, Snezana, Matthews, James, Mir, Luis M., Kassomenos, Pavlos, Cifra, Michal, Barbosa, Susana, Chen, Xuemeng, Dragovic, Snezana, Consoulas, Christos, Hunting, Ellard R., Robert, Daniel, and López Jiménez, Petra Amparo

Abstract

[EN] There is an increasing interest to study the interactions between atmospheric electrical parameters and living organisms at multiple scales. So far, relatively few studies have been published that focus on possible biological effects of atmospheric electric and magnetic fields. To foster future work in this area of multidisciplinary research, here we present a glossary of relevant terms. Its main purpose is to facilitate the process of learning and communication among the different scientific disciplines working on this topic. While some definitions come from existing sources, other concepts have been re-defined to better reflect the existing and emerging scientific needs of this multidisciplinary and transdisciplinary area of research.

Published

2021

5. Glossary on atmospheric electricity and its effects on biology

Author

European Cooperation in Science and Technology, Ministry of Science and Higher Education (Poland), Polish Academy of Sciences, Fernández-Arroyabe, Pablo, Kourtidis, Konstantinos, Haldoupis, Christos, Savoska, Snezana, Matthews, James, Mir, Lluis M, Kassomenos, Pavlos, Cifra, Michal, Barbosa Susana, Chen, Xuemeng, Dragovic, Snezana, Consoulas, Christos, Hunting, Ellard R., Robert, Daniel, van der Velde, Oscar A., Apollonio, Francesca, Odzimek, Anna, Chilingarian, Ashot, Royé, Dominic, Mkrtchyan, Hripsime, Price, Colin, Bór, József, Oikonomou, Christina, Birsan, Marius-Victor, Crespo-Facorro, Benedicto, Djordjevic, Milan, Salcines, Ciro, López-Jiménez, Amparo, Donner, Reik V., Vana, Marko, Pepke Pedersen, Jens Olaf, Vorenhout, Michel, Michael Rycroft, European Cooperation in Science and Technology, Ministry of Science and Higher Education (Poland), Polish Academy of Sciences, Fernández-Arroyabe, Pablo, Kourtidis, Konstantinos, Haldoupis, Christos, Savoska, Snezana, Matthews, James, Mir, Lluis M, Kassomenos, Pavlos, Cifra, Michal, Barbosa Susana, Chen, Xuemeng, Dragovic, Snezana, Consoulas, Christos, Hunting, Ellard R., Robert, Daniel, van der Velde, Oscar A., Apollonio, Francesca, Odzimek, Anna, Chilingarian, Ashot, Royé, Dominic, Mkrtchyan, Hripsime, Price, Colin, Bór, József, Oikonomou, Christina, Birsan, Marius-Victor, Crespo-Facorro, Benedicto, Djordjevic, Milan, Salcines, Ciro, López-Jiménez, Amparo, Donner, Reik V., Vana, Marko, Pepke Pedersen, Jens Olaf, Vorenhout, Michel, and Michael Rycroft

Abstract

There is an increasing interest to study the interactions between atmospheric electrical parameters and living organisms at multiple scales. So far, relatively few studies have been published that focus on possible biological effects of atmospheric electric and magnetic fields. To foster future work in this area of multidisciplinary research, here we present a glossary of relevant terms. Its main purpose is to facilitate the process of learning and communication among the different scientific disciplines working on this topic. While some definitions come from existing sources, other concepts have been re-defined to better reflect the existing and emerging scientific needs of this multidisciplinary and transdisciplinary area of research.

Published

2021

6. Glossary on atmospheric electricity and its effects on biology

Author

Fernández de Arroyabe, Pablo, Kourtidis, Konstantinos, Haldoupis, Christos, Savoska, Snezana, Matthews, James, Mir, Lluis M., Crespo Facorro, Benedicto, Rycroft, Michael, Universidad de Sevilla. Departamento de Psiquiatría, and COST (European Cooperation in Science and Technology)

Subjects

Biometeorological profile, Biological effects, Atmospheric electric field, Atmospheric electricity phenomena, Glossary

Abstract

There is an increasing interest to study the interactions between atmospheric electrical parameters and living organisms at multiple scales. So far, relatively few studies have been published that focus on possible biological effects of atmospheric electric and magnetic fields. To foster future work in this area of multidisciplinary research, here we present a glossary of relevant terms. Its main purpose is to facilitate the process of learning and communication among the different scientific disciplines working on this topic. While some definitions come from existing sources, other concepts have been re-defined to better reflect the existing and emerging scientific needs of this multidisciplinary and transdisciplinary area of research.

Published

2020

7. Glossary on atmospheric electricity and its effects on biology

Author

Universidad de Sevilla. Departamento de Psiquiatría, COST (European Cooperation in Science and Technology), Fernández de Arroyabe, Pablo, Kourtidis, Konstantinos, Haldoupis, Christos, Savoska, Snezana, Matthews, James, Mir, Lluis M., Crespo Facorro, Benedicto, Rycroft, Michael, Universidad de Sevilla. Departamento de Psiquiatría, COST (European Cooperation in Science and Technology), Fernández de Arroyabe, Pablo, Kourtidis, Konstantinos, Haldoupis, Christos, Savoska, Snezana, Matthews, James, Mir, Lluis M., Crespo Facorro, Benedicto, and Rycroft, Michael

Abstract

There is an increasing interest to study the interactions between atmospheric electrical parameters and living organisms at multiple scales. So far, relatively few studies have been published that focus on possible biological effects of atmospheric electric and magnetic fields. To foster future work in this area of multidisciplinary research, here we present a glossary of relevant terms. Its main purpose is to facilitate the process of learning and communication among the different scientific disciplines working on this topic. While some definitions come from existing sources, other concepts have been re-defined to better reflect the existing and emerging scientific needs of this multidisciplinary and transdisciplinary area of research.

Published

2020

8. Toward the creation of an ontology for the coupling of atmospheric electricity with biological systems

Author

Savoska, Snezana, primary, Fdez-Arroyabe, P., additional, Cifra, M., additional, Kourtidis, K., additional, Rozanov, E., additional, Nicoll, K., additional, Dragovic, S., additional, and Mir, L. M., additional

Published

2020

9. Glossary on atmospheric electricity and its effects on biology

Author

Fdez-Arroyabe, Pablo, primary, Kourtidis, Konstantinos, additional, Haldoupis, Christos, additional, Savoska, Snezana, additional, Matthews, James, additional, Mir, Lluis M., additional, Kassomenos, Pavlos, additional, Cifra, Michal, additional, Barbosa, Susana, additional, Chen, Xuemeng, additional, Dragovic, Snezana, additional, Consoulas, Christos, additional, Hunting, Ellard R., additional, Robert, Daniel, additional, van der Velde, Oscar A., additional, Apollonio, Francesca, additional, Odzimek, Anna, additional, Chilingarian, Ashot, additional, Royé, Dominic, additional, Mkrtchyan, Hripsime, additional, Price, Colin, additional, Bór, József, additional, Oikonomou, Christina, additional, Birsan, Marius-Victor, additional, Crespo-Facorro, Benedicto, additional, Djordjevic, Milan, additional, Salcines, Ciro, additional, López-Jiménez, Amparo, additional, Donner, Reik V., additional, Vana, Marko, additional, Pedersen, Jens Olaf Pepke, additional, Vorenhout, Michel, additional, and Rycroft, Michael, additional

Published

2020

10. PESFOR-W:improving the design and environmental effectiveness of woodlands for water payments for ecosystem services

Author

Valatin, Gregory, Abildtrup, Jens, Accastello, Cristian, Said Al-Tawaha, Abdel Rahman Mohammad, Andreucci, Maria-Beatrice, Atanasova, Silvia, Avdibegović, Mersudin, Baksic, Nikolina, Banasik, Kazimierz, Barquin, Jose, Barstad, Johan, Bastakova, Viera, Becirovic, Dzenan, Begueria, Santiago, Bethers, Uldis, Bihunova, Maria, Blagojevic, Bosko, Bösch, Matthias, Bournaris, Thomas, Cao, Yiying, Carvalho-Santos, Claudia, Chikalanov, Alexander, A. Cunha e Sá, Maria, Czyżyk, Krzysztof, Daly, Hamed, Davies, Helen, Del Campo, Antonio, de Groot, Rudolf, De Vreese, Rik, Dostál, Tomáš, El Mokaddem, Abdelmohssin, Finér, Leena, Evans, Rhys, Fiquepron, Julien, Frac, Magdalena, Futter, Martyn, Garcia, Serge, Gatto, Paola, Geneletti, Davide, Gezik, Veronika, Giupponi, Carlo, González-Sanchís, María, Gordillo, Fernando, Gorriz, Elena, Grigorova, Yulia, Heinsoo, Katrin, Hochbichler, Eduard, Högbom, Lars, Image, Mike, Jacobsen, Jette Bredahl, Japelj, Anže, Jelic, Sreten, Junk, Jürgen, Juhasz, Csaba, Kagalou, Ifigenia, Kelly-Quinn, Mary, Klamerus-Iwan, Anna, Kluvankova, Tatiana, Koeck, Roland, Konovska, Iskra, Krajter Ostoic, Silvija, Krc, Janez, Lavnyy, Vasyl, Leonardi, Alessandro, Libiete, Zane, Little, Declan, Lo Porto, Antonio, Loukas, Athanasios, Lyubenova, Mariyana Ivanova, Maric, Bruno, Martínez-López, Javier, Martinez, Inazio, Maxim, Alexandru, Metslaid, Marek, Melvin, Alison, Costică, Mihai, Mincev, Ivan, Morkvenas, Zymantas, Nevenic, Radovan, Nisbet, Tom, O'hUallachain, Daire, Olschewski, Roland, Östberg, Johan, Oszust, Karolina, Ovando, Paola, Paletto, Alessandro, Parpan, Taras, Pettenella, Davide, Pezdevšek Malovrh, Špela, Planinšek, Špela, Podlipná, Radka, Posavec, Stjepan, Potočki, Kristina, Prokofieva, Irina, Quinteiro, Paula, Radocz, Laszlo, Ristic, Ratko, Robert, Nicolas, Rugani, Benedetto, Sabanovic, Jelena, Sarvasova, Zuzana, Savoska, Snezana, Schleppi, Patrick, Schueler, Gebhard, Shannon, Margaret, Silgram, Martyn, Srdjevic, Bojan, Stefan, Gavril, Stijovic, Aleksandar, Strange, Niels, Tattari, Sirkka, Teofilovski, Aco, Termansen, Mette, Thorsen, Bo Jellesmark, Toth, Attila, Trebs, Ivonne, Tmušić, Novica, Vasiliades, Lampros, Vedel, Suzanne Elizabeth, Ventrubová, Kateřina, Vuletic, Dijana, Winkel, Georg, Yao, Richard, Young, Sarah, Yousefpour, Rasoul, Zahvoyska, Lyudmyla, Zhang, Daowei, Zhou, Jianhua, Žižková, Eva, Valatin, Gregory, Abildtrup, Jens, Accastello, Cristian, Said Al-Tawaha, Abdel Rahman Mohammad, Andreucci, Maria-Beatrice, Atanasova, Silvia, Avdibegović, Mersudin, Baksic, Nikolina, Banasik, Kazimierz, Barquin, Jose, Barstad, Johan, Bastakova, Viera, Becirovic, Dzenan, Begueria, Santiago, Bethers, Uldis, Bihunova, Maria, Blagojevic, Bosko, Bösch, Matthias, Bournaris, Thomas, Cao, Yiying, Carvalho-Santos, Claudia, Chikalanov, Alexander, A. Cunha e Sá, Maria, Czyżyk, Krzysztof, Daly, Hamed, Davies, Helen, Del Campo, Antonio, de Groot, Rudolf, De Vreese, Rik, Dostál, Tomáš, El Mokaddem, Abdelmohssin, Finér, Leena, Evans, Rhys, Fiquepron, Julien, Frac, Magdalena, Futter, Martyn, Garcia, Serge, Gatto, Paola, Geneletti, Davide, Gezik, Veronika, Giupponi, Carlo, González-Sanchís, María, Gordillo, Fernando, Gorriz, Elena, Grigorova, Yulia, Heinsoo, Katrin, Hochbichler, Eduard, Högbom, Lars, Image, Mike, Jacobsen, Jette Bredahl, Japelj, Anže, Jelic, Sreten, Junk, Jürgen, Juhasz, Csaba, Kagalou, Ifigenia, Kelly-Quinn, Mary, Klamerus-Iwan, Anna, Kluvankova, Tatiana, Koeck, Roland, Konovska, Iskra, Krajter Ostoic, Silvija, Krc, Janez, Lavnyy, Vasyl, Leonardi, Alessandro, Libiete, Zane, Little, Declan, Lo Porto, Antonio, Loukas, Athanasios, Lyubenova, Mariyana Ivanova, Maric, Bruno, Martínez-López, Javier, Martinez, Inazio, Maxim, Alexandru, Metslaid, Marek, Melvin, Alison, Costică, Mihai, Mincev, Ivan, Morkvenas, Zymantas, Nevenic, Radovan, Nisbet, Tom, O'hUallachain, Daire, Olschewski, Roland, Östberg, Johan, Oszust, Karolina, Ovando, Paola, Paletto, Alessandro, Parpan, Taras, Pettenella, Davide, Pezdevšek Malovrh, Špela, Planinšek, Špela, Podlipná, Radka, Posavec, Stjepan, Potočki, Kristina, Prokofieva, Irina, Quinteiro, Paula, Radocz, Laszlo, Ristic, Ratko, Robert, Nicolas, Rugani, Benedetto, Sabanovic, Jelena, Sarvasova, Zuzana, Savoska, Snezana, Schleppi, Patrick, Schueler, Gebhard, Shannon, Margaret, Silgram, Martyn, Srdjevic, Bojan, Stefan, Gavril, Stijovic, Aleksandar, Strange, Niels, Tattari, Sirkka, Teofilovski, Aco, Termansen, Mette, Thorsen, Bo Jellesmark, Toth, Attila, Trebs, Ivonne, Tmušić, Novica, Vasiliades, Lampros, Vedel, Suzanne Elizabeth, Ventrubová, Kateřina, Vuletic, Dijana, Winkel, Georg, Yao, Richard, Young, Sarah, Yousefpour, Rasoul, Zahvoyska, Lyudmyla, Zhang, Daowei, Zhou, Jianhua, and Žižková, Eva

Abstract

The EU Water Framework Directive aims to ensure restoration of Europe’s water bodies to “good ecological status” by 2027. Many Member States will struggle to meet this target, with around half of EU river catchments currently reporting below standard water quality. Diffuse pollution from agriculture represents a major pressure, affecting over 90% of river basins. Accumulating evidence shows that recent improvements to agricultural practices are benefiting water quality but in many cases will be insufficient to achieve WFD objectives. There is growing support for land use change to help bridge the gap, with a particular focus on targeted tree planting to intercept and reduce the delivery of diffuse pollutants to water. This form of integrated catchment management offers multiple benefits to society but a significant cost to landowners and managers. New economic instruments, in combination with spatial targeting, need to be developed to ensure cost effective solutions – including tree planting for water benefits - are realised. Payments for Ecosystem Services (PES) are flexible, incentive-based mechanisms that could play an important role in promoting land use change to deliver water quality targets. The PESFOR-W COST Action will consolidate learning from existing woodlands for water PES schemes in Europe and help standardize approaches to evaluating the environmental effectiveness and cost-effectiveness of woodland measures. It will also create a European network through which PES schemes can be facilitated, extended and improved, for example by incorporating other ecosystem services linking with aims of the wider forests-carbon policy nexus., The EU Water Framework Directive aims to ensure restoration of Europe’s water bodies to “good ecological status” by 2027. Many Member States will struggle to meet this target, with around half of EU river catchments currently reporting below standard water quality. Diffuse pollution from agriculture represents a major pressure, affecting over 90% of river basins. Accumulating evidence shows that recent improvements to agricultural practices are benefiting water quality but in many cases will be insufficient to achieve WFD objectives. There is growing support for land use change to help bridge the gap, with a particular focus on targeted tree planting to intercept and reduce the delivery of diffuse pollutants to water. This form of integrated catchment management offers multiple benefits to society but a significant cost to landowners and managers. New economic instruments, in combination with spatial targeting, need to be developed to ensure cost effective solutions – including tree planting for water benefits - are realised. Payments for Ecosystem Services (PES) are flexible, incentive-based mechanisms that could play an important role in promoting land use change to deliver water quality targets. The PESFOR-W COST Action will consolidate learning from existing woodlands for water PES schemes in Europe and help standardize approaches to evaluating the environmental effectiveness and cost-effectiveness of woodland measures. It will also create a European network through which PES schemes can be facilitated, extended and improved, for example by incorporating other ecosystem services linking with aims of the wider forests-carbon policy nexus.

Published

2017

11. PESFOR-W: Improving the design and environmental effectiveness of woodlands for water Payments for Ecosystem Services

Author

Valatin, Gregory, primary, Abildtrup, Jens, additional, Accastello, Cristian, additional, Al-Tawaha, Abdel Rahman, additional, Andreucci, Maria-Beatrice, additional, Atanasova, Silvia, additional, Avdibegović, Mersudin, additional, Baksic, Nikolina, additional, Banasik, Kazimierz, additional, Barquin, Jose, additional, Barstad, Johan, additional, Bastakova, Viera, additional, Becirovic, Dzenan, additional, Begueria, Santiago, additional, Bethers, Uldis, additional, Bihunova, Maria, additional, Blagojevic, Bosko, additional, Bösch, Matthias, additional, Bournaris, Thomas, additional, Cao, Yiying, additional, Carvalho-Santos, Claudia, additional, Chikalanov, Alexander, additional, Cunha e Sá, Maria, additional, Czyżyk, Krzysztof, additional, Daly, Hamed, additional, Davies, Helen, additional, Del Campo, Antonio, additional, Groot, Rudolf de, additional, De Vreese, Rik, additional, Dostál, Tomáš, additional, El Mokaddem, Abdelmohssin, additional, Finér, Leena, additional, Evans, Rhys, additional, Fiquepron, Julien, additional, Frac, Magdalena, additional, Futter, Martyn, additional, Garcia, Serge, additional, Gatto, Paola, additional, Geneletti, Davide, additional, Gezik, Veronika, additional, Giupponi, Carlo, additional, González-Sanchís, María, additional, Gordillo, Fernando, additional, Gorriz, Elena, additional, Grigorova, Yulia, additional, Heinsoo, Katrin, additional, Hochbichler, Eduard, additional, Högbom, Lars, additional, Image, Mike, additional, Jacobsen, Jette, additional, Japelj, Anže, additional, Jelic, Sreten, additional, Junk, Jürgen, additional, Juhasz, Csaba, additional, Kagalou, Ifigenia, additional, Kelly-Quinn, Mary, additional, Klamerus-Iwan, Anna, additional, Kluvankova, Tatiana, additional, Koeck, Roland, additional, Konovska, Iskra, additional, Ostoic, Silvija, additional, Krc, Janez, additional, Lavnyy, Vasyl, additional, Leonardi, Alessandro, additional, Libiete, Zane, additional, Little, Declan, additional, Lo Porto, Antonio, additional, Loukas, Athanasios, additional, Lyubenova, Mariyana, additional, Maric, Bruno, additional, Martínez-López, Javier, additional, Martinez, Inazio, additional, Maxim, Alexandru, additional, Metslaid, Marek, additional, Melvin, Alison, additional, Costică, Mihai, additional, Mincev, Ivan, additional, Morkvenas, Zymantas, additional, Nevenic, Radovan, additional, Nisbet, Tom, additional, O'hUallachain, Daire, additional, Olschewski, Roland, additional, Östberg, Johan, additional, Oszust, Karolina, additional, Ovando, Paola, additional, Paletto, Alessandro, additional, Parpan, Taras, additional, Pettenella, Davide, additional, Malovrh, Špela, additional, Planinšek, Špela, additional, Podlipná, Radka, additional, Posavec, Stjepan, additional, Potočki, Kristina, additional, Prokofieva, Irina, additional, Quinteiro, Paula, additional, Radocz, Laszlo, additional, Ristic, Ratko, additional, Robert, Nicolas, additional, Rugani, Benedetto, additional, Sabanovic, Jelena, additional, Sarvasova, Zuzana, additional, Savoska, Snezana, additional, Schleppi, Patrick, additional, Schueler, Gebhard, additional, Shannon, Margaret, additional, Silgram, Martyn, additional, Srdjevic, Bojan, additional, Stefan, Gavril, additional, Stijovic, Aleksandar, additional, Strange, Niels, additional, Tattari, Sirkka, additional, Teofilovski, Aco, additional, Termansen, Mette, additional, Thorsen, Bo, additional, Toth, Attila, additional, Trebs, Ivonne, additional, Tmušić, Novica, additional, Vasiliades, Lampros, additional, Vedel, Suzanne, additional, Ventrubová, Kateřina, additional, Vuletic, Dijana, additional, Winkel, Georg, additional, Yao, Richard, additional, Young, Sarah, additional, Yousefpour, Rasoul, additional, Zahvoyska, Lyudmyla, additional, Zhang, Daowei, additional, Zhou, Jianhua, additional, and Žižková, Eva, additional

Published

2017

12. Specific Usage of Visual Data Analysis Techniques

Author

Loskovska, Suzana and Savoska, Snezana

Subjects

ComputingMethodologies_PATTERNRECOGNITION, Rule generation, Classification, Data mining, Clastering, Visualization

Abstract

The visualization techniques are very important tools for data mining processes. They are widely applied in many areas especially in supporting decision making processes. We use visualization tools for rule generation, classification and clustering. The paper presents application of data visualization techniques and tools for generation of association rules, classification and clustering.

Published

2009

13. Towards Implementation of Big Data Concepts in a Pharmaceutical Company

Author

Savoska Snezana and Ristevski Blagoj

Subjects

big data, information systems, unstructured data, enterprise resource planning systems, serialization, Electronic computers. Computer science, QA75.5-76.95

Abstract

Nowadays, big data is a widely utilized concept that has been spreading quickly in almost every domain. For pharmaceutical companies, using this concept is a challenging task because of the permanent pressure and business demands created through the legal requirements, research demands and standardization that have to be adopted. These legal and standards’ demands are associated with human healthcare safety and drug control that demands continuous and deep data analysis. Companies update their procedures to the particular laws, standards, market demands and regulations all the time by using contemporary information technology. This paper highlights some important aspects of the experience and change methodology used in one Macedonian pharmaceutical company, which has employed information technology solutions that successfully tackle legal and business pressures when dealing with a large amount of data. We used a holistic view and deliverables analysis methodology to gain top-down insights into the possibilities of big data analytics. Also, structured interviews with the company’s managers were used for information collection and proactive methodology with workshops was used in data integration toward the implementation of big data concepts. The paper emphasizes the information and knowledge used in this domain to improve awareness for the needs of big data analysis to achieve a competitive advantage. The main results are focused on systematizing the whole company’s data, information and knowledge and propose a solution that integrates big data to support managers’ decision-making processes.

Published

2020