Entry No | Description | Inventors |
---|---|---|
CN-01 | A Pipe Jacking Machine Suitable for the Construction of Three-lane Rectangular Tunnels | Jia Lianhui, Fan Lei, Gong Tingmin, Chen Wentao, Wang Xiaotao |
CN-01-01 | A Pipe Jacking Machine Suitable for the Construction of Three-lane Rectangular Tunnels | Jia Lianhui |
CN-01-02 | A Pipe Jacking Machine Suitable for the Construction of Three-lane Rectangular Tunnels | Fan Lei |
CN-01-03 | A Pipe Jacking Machine Suitable for the Construction of Three-lane Rectangular Tunnels | Gong Tingmin |
CN-01-04 | A Pipe Jacking Machine Suitable for the Construction of Three-lane Rectangular Tunnels | Chen Wentao |
CN-01-05 | A Pipe Jacking Machine Suitable for the Construction of Three-lane Rectangular Tunnels | Wang Xiaotao |
CN-02 | Automotive Anti-Animal Hiding Device | Jun Li; Yifan Xu; Shengxian Sun; Haoyang Hu; Bulei Gong |
CN-02-01 | Automotive Anti-Animal Hiding Device | Jun Li |
CN-02-02 | Automotive Anti-Animal Hiding Device | Yifan Xu |
CN-02-03 | Automotive Anti-Animal Hiding Device | Shengxian Sun |
CN-02-04 | Automotive Anti-Animal Hiding Device | Haoyang Hu |
CN-02-05 | Automotive Anti-Animal Hiding Device | Bulei Gong |
CN-03 | Gynecological Uterine Lifting Chair | Wu Xiaozhen |
CN-21 | Mathematical Modeling on the Optimization of Batch Meal Intervals in School Canteen | Sun Zhou |
CN-21-01 | Mathematical Modeling on the Optimization of Batch Meal Intervals in School Canteen | Xu Zhilian |
ID-01 | PIRLO-O: an Adventure Game as a Medium of Understanding and Sustaining the Cultural Heritage Among Teenagers | Qailla Syahrani Putri, Savia Syihan Alfaiza, Hirzi Prabu Sudiyanto, Muhammad Zoran Racha Rachmad, Barli Relananda |
ID-01-01 | PIRLO-O: an Adventure Game as a Medium of Understanding and Sustaining the Cultural Heritage Among Teenagers | Qailla Syahrani Putri |
ID-01-02 | PIRLO-O: an Adventure Game as a Medium of Understanding and Sustaining the Cultural Heritage Among Teenagers | Savia Syihan Alfaiza |
ID-01-03 | PIRLO-O: an Adventure Game as a Medium of Understanding and Sustaining the Cultural Heritage Among Teenagers | Hirzi Prabu Sudiyanto |
ID-01-04 | PIRLO-O: an Adventure Game as a Medium of Understanding and Sustaining the Cultural Heritage Among Teenagers | Muhammad Zoran Racha Rachmad |
ID-01-05 | PIRLO-O: an Adventure Game as a Medium of Understanding and Sustaining the Cultural Heritage Among Teenagers | Barli Relananda |
ID-01-06 | PIRLO-O: an Adventure Game as a Medium of Understanding and Sustaining the Cultural Heritage Among Teenagers | Noni Marlin Sinaga |
ID-02 | Non-Invasive Anemia Detection Tool Through Conjungtiva Image Integrated With Machine Learning and IOT | Bagas Naufal Pudyastungkara, Rizki Diniyatul Azizah, Davon Avellino Suardian |
ID-02-01 | Non-Invasive Anemia Detection Tool Through Conjungtiva Image Integrated With Machine Learning and IOT | Bagas Naufal Pudyastungkara |
ID-02-02 | Non-Invasive Anemia Detection Tool Through Conjungtiva Image Integrated With Machine Learning and IOT | Rizki Diniyatul Azizah |
ID-02-03 | Non-Invasive Anemia Detection Tool Through Conjungtiva Image Integrated With Machine Learning and IOT | Davon Avellino Suardian |
ID-21 | Optimizing Palm Kernel Shell-Based Activated Carbon Modified with Metal-Organic Framework for Heavy Metal Adsorption in Electroplating Wastewater | Tiara Ade Lina, Hasna Azzahra, Salsabila Freya Daniarti, Jasmine Arminta Minami and Ratu Annisa Syifa |
ID-21-01 | Optimizing Palm Kernel Shell-Based Activated Carbon Modified with Metal-Organic Framework for Heavy Metal Adsorption in Electroplating Wastewater | Tiara Ade Lina |
ID-21-02 | Optimizing Palm Kernel Shell-Based Activated Carbon Modified with Metal-Organic Framework for Heavy Metal Adsorption in Electroplating Wastewater | Hasna Azzahra |
ID-21-03 | Optimizing Palm Kernel Shell-Based Activated Carbon Modified with Metal-Organic Framework for Heavy Metal Adsorption in Electroplating Wastewater | Salsabila Freya Daniarti |
ID-21-04 | Optimizing Palm Kernel Shell-Based Activated Carbon Modified with Metal-Organic Framework for Heavy Metal Adsorption in Electroplating Wastewater | Jasmine Arminta Minami |
ID-21-05 | Optimizing Palm Kernel Shell-Based Activated Carbon Modified with Metal-Organic Framework for Heavy Metal Adsorption in Electroplating Wastewater | Ratu Annisa Syifa |
ID-21-06 | Optimizing Palm Kernel Shell-Based Activated Carbon Modified with Metal-Organic Framework for Heavy Metal Adsorption in Electroplating Wastewater | Meitriana Nurelifah Novitasari |
ID-22 | NUCURE: Antimicrobial Effectiveness of Ethanol Noni and Sweet Potato Leaf Stalks Extracts Using Evadek Technology for Treating Wound Infections | Nyoman Ayu Laksmi Wulandari, Dewa Ayu Ngurah Diandra Malya Putri, Putu Adyavira Medhavi Keilasvari, Kadek Gotama Mandala Putra, Putu Anayu Avatari Anastasia Baratha |
ID-22-01 | NUCURE: Antimicrobial Effectiveness of Ethanol Noni and Sweet Potato Leaf Stalks Extracts Using Evadek Technology for Treating Wound Infections | Nyoman Ayu Laksmi Wulandari |
ID-22-02 | NUCURE: Antimicrobial Effectiveness of Ethanol Noni and Sweet Potato Leaf Stalks Extracts Using Evadek Technology for Treating Wound Infections | Dewa Ayu Ngurah Diandra Malya Putri |
ID-22-03 | NUCURE: Antimicrobial Effectiveness of Ethanol Noni and Sweet Potato Leaf Stalks Extracts Using Evadek Technology for Treating Wound Infections | Putu Adyavira Medhavi Keilasvari |
ID-22-04 | NUCURE: Antimicrobial Effectiveness of Ethanol Noni and Sweet Potato Leaf Stalks Extracts Using Evadek Technology for Treating Wound Infections | Kadek Gotama Mandala Putra |
ID-22-05 | NUCURE: Antimicrobial Effectiveness of Ethanol Noni and Sweet Potato Leaf Stalks Extracts Using Evadek Technology for Treating Wound Infections | Putu Anayu Avatari Anastasia Baratha |
ID-22-06 | NUCURE: Antimicrobial Effectiveness of Ethanol Noni and Sweet Potato Leaf Stalks Extracts Using Evadek Technology for Treating Wound Infections | Luh Asri Martani |
ID-23 | NEUROSAFE (Neurological and Falls Detection System Ensuring Safety for Elderly and Epilepsy) | Rizky Ramadhan Sayyid Zenyda, Nindya Khairunisa, Siti Silvia Nur S S, Tahlirsti Dijane Nurhulwah, Fathi Ghifari Muhammad, Mochammad Shidqy Yudhistra, Hafiza Abdul |
ID-23-01 | NEUROSAFE (Neurological and Falls Detection System Ensuring Safety for Elderly and Epilepsy) | Rizky Ramadhan Sayyid Zenyda |
ID-23-02 | NEUROSAFE (Neurological and Falls Detection System Ensuring Safety for Elderly and Epilepsy) | Nindya Khairunisa |
ID-23-03 | NEUROSAFE (Neurological and Falls Detection System Ensuring Safety for Elderly and Epilepsy) | Siti Silvia Nur S S |
ID-23-04 | NEUROSAFE (Neurological and Falls Detection System Ensuring Safety for Elderly and Epilepsy) | Tahlirsti Dijane Nurhulwah |
ID-23-05 | NEUROSAFE (Neurological and Falls Detection System Ensuring Safety for Elderly and Epilepsy) | Fathi Ghifari Muhammad |
ID-23-06 | NEUROSAFE (Neurological and Falls Detection System Ensuring Safety for Elderly and Epilepsy) | Mochammad Shidqy Yudhistra |
ID-23-07 | NEUROSAFE (Neurological and Falls Detection System Ensuring Safety for Elderly and Epilepsy) | Hafiza Abdul |
ID-24 | Non-Invasive Detection of Glucose Levels: MANIES (Measurement Analysis NIR-Spectroscopy) to Reduce Medical Waste | Rifanza Hirzan, Rizki Aulia Rahma, Hafizh Al-Gazhali Reizaputra, Muhammad Riza Vikar Akbar Alhayat, Muhammad Naufal Laksita, Liana Awalia Lutfunnisa, Nurul Mufliha Patahuddin |
ID-24-01 | Non-Invasive Detection of Glucose Levels: MANIES (Measurement Analysis NIR-Spectroscopy) to Reduce Medical Waste | Rifanza Hirzan |
ID-24-02 | Non-Invasive Detection of Glucose Levels: MANIES (Measurement Analysis NIR-Spectroscopy) to Reduce Medical Waste | Rizki Aulia Rahma |
ID-24-03 | Non-Invasive Detection of Glucose Levels: MANIES (Measurement Analysis NIR-Spectroscopy) to Reduce Medical Waste | Hafizh Al-Gazhali Reizaputra |
ID-24-04 | Non-Invasive Detection of Glucose Levels: MANIES (Measurement Analysis NIR-Spectroscopy) to Reduce Medical Waste | Muhammad Riza Vikar Akbar Alhayat |
ID-24-05 | Non-Invasive Detection of Glucose Levels: MANIES (Measurement Analysis NIR-Spectroscopy) to Reduce Medical Waste | Muhammad Naufal Laksita |
ID-24-06 | Non-Invasive Detection of Glucose Levels: MANIES (Measurement Analysis NIR-Spectroscopy) to Reduce Medical Waste | Liana Awalia Lutfunnisa |
ID-24-07 | Non-Invasive Detection of Glucose Levels: MANIES (Measurement Analysis NIR-Spectroscopy) to Reduce Medical Waste | Nurul Mufliha Patahuddin |
MA-01 | Intelligent Device for Automatically Changing the Orientation of a Photovoltaic Panel | Majid EL BOUAZZAOUI |
PH-01 | HOCLOMAC - a Low-Cost Onsite Hypochlorous Acid Generator | Francis Aldrine A Uy, Febus Reidj G Cruz, Carissa Jane R Santos, Mark Rommel Collado, Angel Flynn Egam |
PH-01-01 | HOCLOMAC - a Low-Cost Onsite Hypochlorous Acid Generator | Francis Aldrine A Uy |
PH-01-02 | HOCLOMAC - a Low-Cost Onsite Hypochlorous Acid Generator | Febus Reidj G Cruz |
PH-01-03 | HOCLOMAC - a Low-Cost Onsite Hypochlorous Acid Generator | Carissa Jane R Santos |
PH-01-04 | HOCLOMAC - a Low-Cost Onsite Hypochlorous Acid Generator | Mark Rommel Collado |
PH-01-05 | HOCLOMAC - a Low-Cost Onsite Hypochlorous Acid Generator | Angel Flynn Egam |
PH-02 | CharM - Charging in Minutes | Leo Allen S Tayo |
PH-03 | QBX-SMA Strong Motion Accelerograph | Rodolfo Alfonso R Sabio, Emmanuel G Ramos, Mark Linus C Ramos |
PH-03-01 | QBX-SMA Strong Motion Accelerograph | Rodolfo Alfonso R Sabio |
PH-03-02 | QBX-SMA Strong Motion Accelerograph | Emmanuel G Ramos |
PH-03-03 | QBX-SMA Strong Motion Accelerograph | Mark Linus C Ramos |
PH-04 | Ethnobotanical Dewormer for Native Chicken | Bede P Ozaraga, Ma Sylvia I Ozaraga, Maryneth B Barrios |
PH-04-01 | Ethnobotanical Dewormer for Native Chicken | Bede P Ozaraga |
PH-04-02 | Ethnobotanical Dewormer for Native Chicken | Ma Sylvia I Ozaraga |
PH-04-03 | Ethnobotanical Dewormer for Native Chicken | Maryneth B Barrios |
PH-05 | Hiraya Intelligent Modular Optimization (HIMO) | Stephen Larcia, Jan Russell Diolata, Jam Benneth Wong |
PH-05-01 | Hiraya Intelligent Modular Optimization (HIMO) | Stephen Larcia |
PH-05-02 | Hiraya Intelligent Modular Optimization (HIMO) | Jan Russell Diolata |
PH-05-03 | Hiraya Intelligent Modular Optimization (HIMO) | Jam Benneth Wong |
PH-06 | WiltCure Biopesticide | Eufrocinio C Marfori |
PH-21 | Teachigo | Iman Hadi Vincheh, Ma Chat Donna V Ofilas-Hadi |
PH-21-01 | Teachigo | Iman Hadi Vincheh |
PH-21-02 | Teachigo | Ma Chat Donna V Ofilas-Hadi |
PH-22 | Omega Green | Jenver Esnara Kimbungan |
PH-23 | Teslab-arch’s Waste Cycle Arts | Lemuel T Arizo |
PH-24 | Topical Herbal Cream Preparation DEBCC Cream in the Removal of Basal Cell Carcinoma (BCC) Skin Cancer | Roland B dela Cruz, Rommel B dela Cruz & Lorena B dela Cruz |
PH-24-01 | Topical Herbal Cream Preparation DEBCC Cream in the Removal of Basal Cell Carcinoma (BCC) Skin Cancer | Roland B dela Cruz |
PH-24-02 | Topical Herbal Cream Preparation DEBCC Cream in the Removal of Basal Cell Carcinoma (BCC) Skin Cancer | Rommel B dela Cruz |
PH-24-03 | Topical Herbal Cream Preparation DEBCC Cream in the Removal of Basal Cell Carcinoma (BCC) Skin Cancer | Lorena B dela Cruz |
PH-25 | Topical Herbal Cream Preparation Dewart and Demole in the Removal of Warts, Moles and the Likes | Roland B dela Cruz, Rommel B dela Cruz & Lorena B dela Cruz |
PH-25-01 | Topical Herbal Cream Preparation Dewart and Demole in the Removal of Warts, Moles and the Likes | Roland B dela Cruz |
PH-25-02 | Topical Herbal Cream Preparation Dewart and Demole in the Removal of Warts, Moles and the Likes | Rommel B dela Cruz |
PH-25-03 | Topical Herbal Cream Preparation Dewart and Demole in the Removal of Warts, Moles and the Likes | Lorena B dela Cruz |
PH-26 | Herbal cream preparation DEGEN in the removing of Condyloma Acuminata | Rommel B dela Cruz |
PH-27 | Enhanced Unsinkable Water Ambulance (EUWA) | Mary Josephine E Jimeno |
PH-28 | Human Disinfection Light (HDL) Portal | John Gabriel J Pagsanghan |
RO-01 | Cranial Endoprothesis With A Sliding System | DOICIN Cristian Vasile; ULMEANU Mihaela Elena; ANTONIAC Vasile Iulian; SEMENESCU Augustin; COSTOIU Mihnea Cosmin; MITRICĂ Marian; MURZAC Roman; CHIRTEȘ Alin; DAVIȚOIU Dragoș-Virgil; DOICIN Irina Elena; MATEȘ Ileana Mariana |
RO-02 | Manufacturing Process of a Product Destined for Bone Defects Reconstruction, Based on Hydroxiapatite and Biogenic Biphasic Calcium Phosphate | Florin MICULESCU, Aura-Cătălina MOCANU, George STAN, Iulian Vasile ANTONIAC, Mihnea Cosmin COSTOIU, Ștefan Ioan VOICU, Marian MICULESCU, Ileana Mariana MATEȘ, Augustin SEMENESCU |
RO-21 | Innovative Use of Sheep Wool and Polyurethane Foam for Obtaining Materials With Sound-absorbing Properties | Nemeş Ovidiu, Borlea (Mureşan) Simona Ioana, Tiuc Ancuţa-Elena, Deak Gyorgy |
RO-22 | Method for Correcting Plane Surfaces in Images From Cameras Equipped With Time-of-flight (TOF) Sensors, Using Convolutional Neural Networks | Pop Marian-Leontin, Tamas Levente |
RO-23 | Spherical Robot for the Rehabilitation of the Proximal Area of the Upper Limb | Vaida Călin, Plitea Nicolae, Pîslă Doina, Carbone Giuseppe, Gherman Bogdan, Ulinici Ionuț, Pîslă Adrian |
RO-24 | Interleaved Voltage Step-Up/Step-Down Electronic Converter | Petre Dorel Teodosescu, Vasile Mihai Suciu, Norbert Csaba Szekely, Alexandru Mădălin Păcuraru, Mircea Bojan, Zsolt Mathe |
SA-01 | Suture Needle Retaining Strap | Hamad A Alzoman |
SA-02 | Novel Modified Platinum Nanoclusters-Activated Carbon Nanotube Membranes @ Metal Organic Frameworks For Highly Efficient Green Hydrogen Production | Sarah Abdullah Alabbad |
TW-01 | Auto Lasers Switch Auto Polarizer Mapping Micro Raman System | Chun-Ta Huang, Wei-Hsin Wang, Chien-Chung Chang |
TW-01-01 | Auto Lasers Switch Auto Polarizer Mapping Micro Raman System | Chun-Ta Huang |
TW-01-02 | Auto Lasers Switch Auto Polarizer Mapping Micro Raman System | Wei-Hsin Wang |
TW-01-03 | Auto Lasers Switch Auto Polarizer Mapping Micro Raman System | Chien-Chung Chang |
TW-02 | Comprehensive SERS Detection Platform (CSDP) for Biomedicine and Food Safety Detection | Chien-Chung Chang, Chun-Ta Huang |
TW-02-01 | Comprehensive SERS Detection Platform (CSDP) for Biomedicine and Food Safety Detection | Chien-Chung Chang |
TW-02-02 | Comprehensive SERS Detection Platform (CSDP) for Biomedicine and Food Safety Detection | Chun-Ta Huang |
TW-03 | Invention of Nanoneedle Structural Biomimetic Ceramics for the Application of Bone Filling Biomaterials | Bai-Hung Huang, Yi-Wen Wang, Yung-Chieh Cho, Chia-Chien Hsieh, Yu-Sin Ou |
TW-03-01 | Invention of Nanoneedle Structural Biomimetic Ceramics for the Application of Bone Filling Biomaterials | Bai-Hung Huang |
TW-03-02 | Invention of Nanoneedle Structural Biomimetic Ceramics for the Application of Bone Filling Biomaterials | Yi-Wen Wang |
TW-03-03 | Invention of Nanoneedle Structural Biomimetic Ceramics for the Application of Bone Filling Biomaterials | Yung-Chieh Cho |
TW-03-04 | Invention of Nanoneedle Structural Biomimetic Ceramics for the Application of Bone Filling Biomaterials | Chia-Chien Hsieh |
TW-03-05 | Invention of Nanoneedle Structural Biomimetic Ceramics for the Application of Bone Filling Biomaterials | Yu-Sin Ou |
TW-04 | The Invention of Real-time Respirator Detachment Based on the Intelligent Internet of Things | Kuo-Yang Huang, Ching-Hsiung Lin, Chih-Min Lin, Ying-Lin Hsu, Jia-Lang Xu |
TW-04-01 | The Invention of Real-time Respirator Detachment Based on the Intelligent Internet of Things | Kuo-Yang Huang |
TW-04-02 | The Invention of Real-time Respirator Detachment Based on the Intelligent Internet of Things | Ching-Hsiung Lin |
TW-04-03 | The Invention of Real-time Respirator Detachment Based on the Intelligent Internet of Things | Chih-Min Lin |
TW-04-04 | The Invention of Real-time Respirator Detachment Based on the Intelligent Internet of Things | Ying-Lin Hsu |
TW-04-05 | The Invention of Real-time Respirator Detachment Based on the Intelligent Internet of Things | Jia-Lang Xu |
TW-05 | Waste Lithium Batteries Enzyme Degradation and Decomposition Technology | Wen-Hsien Chen |
TW-06 | Rail Positioning Device | Vincent Chiang, Tony Wu, Wendy Tsai |
TW-06-01 | Rail Positioning Device | Vincent Chiang |
TW-06-02 | Rail Positioning Device | Tony Wu |
TW-06-03 | Rail Positioning Device | Wendy Tsai |
TW-07 | Terrapin Capsules | Jia Jie Biomedical Co Ltd |
TW-08 | Antrodia Cinnamomea Mycelia Essence Extract (Drink) | Jia Jie Biomedical Co Ltd |
TH-01 | Innovative Automated Atterberg Limits Testing Device | Porpol Wangwattanakool, Ekkachai Suwanprasong, Attaphol Techaratanaprasert, Kraiwut Laothanathavorn, Athiya Waleeittikul, Pakin Pantarat and Narudol Himamarn |
TH-01-01 | Innovative Automated Atterberg Limits Testing Device | Porpol Wangwattanakool |
TH-01-02 | Innovative Automated Atterberg Limits Testing Device | Ekkachai Suwanprasong |
TH-01-03 | Innovative Automated Atterberg Limits Testing Device | Attaphol Techaratanaprasert |
TH-01-04 | Innovative Automated Atterberg Limits Testing Device | Kraiwut Laothanathavorn |
TH-01-05 | Innovative Automated Atterberg Limits Testing Device | Athiya Waleeittikul |
TH-01-06 | Innovative Automated Atterberg Limits Testing Device | Pakin Pantarat |
TH-01-07 | Innovative Automated Atterberg Limits Testing Device | Narudol Himamarn |
TH-02 | High Voltage Insulation Boxes (HVIBs) | Praphun Ponpong, Thanasit Charunsak, Samart Yukong, Sorasak Thongpaing and Sayompoo Rakdee |
TH-02-01 | High Voltage Insulation Boxes (HVIBs) | Praphun Ponpong |
TH-02-02 | High Voltage Insulation Boxes (HVIBs) | Thanasit Charunsak |
TH-02-03 | High Voltage Insulation Boxes (HVIBs) | Samart Yukong |
TH-02-04 | High Voltage Insulation Boxes (HVIBs) | Sorasak Thongpaing |
TH-02-05 | High Voltage Insulation Boxes (HVIBs) | Sayompoo Rakdee |
TH-03 | AquaPM – A Dashboard of Machine Status and Availability in Water Production System | Metropolitan Waterworks Authority |
TH-04 | Antimicrobial Ceramic Product and Equipment for Spa and Alternative Medicine | Community Technology Division, Department of Science Service |
TH-04-01 | Antimicrobial Ceramic Product and Equipment for Spa and Alternative Medicine | Community Technology Division |
TH-04-02 | Antimicrobial Ceramic Product and Equipment for Spa and Alternative Medicine | Department of Science Service |
TH-05 | Sensing Mobility to Early Fall Detection: The Smart Shoe System in the Portable Health Kit Promoting Public Health Safety | Direk Sueaseenak, Thanyathon Ahantharik, Kamonphop Hongauppathamchai, Nanthiya Somsaruay, Onanong Phokaewvarangkul |
TH-05-01 | Sensing Mobility to Early Fall Detection: The Smart Shoe System in the Portable Health Kit Promoting Public Health Safety | Direk Sueaseenak |
TH-05-02 | Sensing Mobility to Early Fall Detection: The Smart Shoe System in the Portable Health Kit Promoting Public Health Safety | Thanyathon Ahantharik |
TH-05-03 | Sensing Mobility to Early Fall Detection: The Smart Shoe System in the Portable Health Kit Promoting Public Health Safety | Kamonphop Hongauppathamchai |
TH-05-04 | Sensing Mobility to Early Fall Detection: The Smart Shoe System in the Portable Health Kit Promoting Public Health Safety | Nanthiya Somsaruay |
TH-05-05 | Sensing Mobility to Early Fall Detection: The Smart Shoe System in the Portable Health Kit Promoting Public Health Safety | Onanong Phokaewvarangkul |
TH-06 | Industrial Control Training Set Using STEM Processes | Puchong Chanjira, Papatson Banpao, Worawit Kamploy, Chanchon Nianmongkhon |
TH-06-01 | Industrial Control Training Set Using STEM Processes | Puchong Chanjira |
TH-06-02 | Industrial Control Training Set Using STEM Processes | Papatson Banpao |
TH-06-03 | Industrial Control Training Set Using STEM Processes | Worawit Kamploy |
TH-06-04 | Industrial Control Training Set Using STEM Processes | Chanchon Nianmongkhon |
TH-07 | Body Strap Based Sweat Glucose Sensor for Self-monitoring of Diabetes on Smartphone | Nadnudda Rodthongkum, Pranee Rattanawaleedirojn, Nadtinan Promphet, Thidarut Laochai, Panlop Lormaneenopparat, Chusak Thanawattano, Pranut Potiyaraj, Krisana Siralertmukul |
TH-07-01 | Body Strap Based Sweat Glucose Sensor for Self-monitoring of Diabetes on Smartphone | Nadnudda Rodthongkum |
TH-07-02 | Body Strap Based Sweat Glucose Sensor for Self-monitoring of Diabetes on Smartphone | Pranee Rattanawaleedirojn |
TH-07-03 | Body Strap Based Sweat Glucose Sensor for Self-monitoring of Diabetes on Smartphone | Nadtinan Promphet |
TH-07-04 | Body Strap Based Sweat Glucose Sensor for Self-monitoring of Diabetes on Smartphone | Thidarut Laochai |
TH-07-05 | Body Strap Based Sweat Glucose Sensor for Self-monitoring of Diabetes on Smartphone | Panlop Lormaneenopparat |
TH-07-06 | Body Strap Based Sweat Glucose Sensor for Self-monitoring of Diabetes on Smartphone | Chusak Thanawattano |
TH-07-07 | Body Strap Based Sweat Glucose Sensor for Self-monitoring of Diabetes on Smartphone | Pranut Potiyaraj |
TH-07-08 | Body Strap Based Sweat Glucose Sensor for Self-monitoring of Diabetes on Smartphone | Krisana Siralertmukul |
TH-08 | Zero Waste Organic Rose Extraction Technology for the Production of Skin Care Products | Dusit Athinuwat, Wannaporn Thepbandit, Krittidetch Anan, Sasithon Srikram |
TH-08-01 | Zero Waste Organic Rose Extraction Technology for the Production of Skin Care Products | Dusit Athinuwat |
TH-08-02 | Zero Waste Organic Rose Extraction Technology for the Production of Skin Care Products | Wannaporn Thepbandit |
TH-08-03 | Zero Waste Organic Rose Extraction Technology for the Production of Skin Care Products | Krittidetch Anan |
TH-08-04 | Zero Waste Organic Rose Extraction Technology for the Production of Skin Care Products | Sasithon Srikram |
TH-09 | NestiV+: Swiftlet Nest Energy Gel for Powering Athletes | Jakkrit Thavorn, Praparast Ausawanetmanee, Worasak Klongthong, Sanong Ekgasit |
TH-09-01 | NestiV+: Swiftlet Nest Energy Gel for Powering Athletes | Jakkrit Thavorn |
TH-09-02 | NestiV+: Swiftlet Nest Energy Gel for Powering Athletes | Praparast Ausawanetmanee |
TH-09-03 | NestiV+: Swiftlet Nest Energy Gel for Powering Athletes | Worasak Klongthong |
TH-09-04 | NestiV+: Swiftlet Nest Energy Gel for Powering Athletes | Sanong Ekgasit |
TH-10 | Tile Bricks From Wastes in the Production Process | Rukchanok Kotthapan, Phrateep Julalert, Thiparat Khunruk, Nara Raksaphon, Phubate Kulprasoet |
TH-10-01 | Tile Bricks From Wastes in the Production Process | Rukchanok Kotthapan |
TH-10-02 | Tile Bricks From Wastes in the Production Process | Phrateep Julalert |
TH-10-03 | Tile Bricks From Wastes in the Production Process | Thiparat Khunruk |
TH-10-04 | Tile Bricks From Wastes in the Production Process | Nara Raksaphon |
TH-10-05 | Tile Bricks From Wastes in the Production Process | Phubate Kulprasoet |
TH-11 | TongPabad V3 Badminton Shuttlecock Launcher | Thanawat Saeeab, Wichuda Phiphitphibunsuk |
TH-11-01 | TongPabad V3 Badminton Shuttlecock Launcher | Thanawat Saeeab |
TH-11-02 | TongPabad V4 Badminton Shuttlecock Launcher | Wichuda Phiphitphibunsuk |
TH-12 | DurianRindCME: Carboxymethyl Cellulose Manufacturing Equipment | Supranee Kaewpirom, Siridech Boonsang and Komgrit Jaksukam |
TH-12-01 | DurianRindCME: Carboxymethyl Cellulose Manufacturing Equipment | Supranee Kaewpirom |
TH-12-02 | DurianRindCME: Carboxymethyl Cellulose Manufacturing Equipment | Siridech Boonsang |
TH-12-03 | DurianRindCME: Carboxymethyl Cellulose Manufacturing Equipment | Komgrit Jaksukam |
TH-13 | Pipericide Plus: A New Innovation of Natural Sand Granules Against Aedes Aegypti Larvae | Nutchaya KUMRUNGSEE, Kalayapat THANASIRIPHONCHAI, Chatwadee SAIYAITONG |
TH-13-01 | Pipericide Plus: A New Innovation of Natural Sand Granules Against Aedes Aegypti Larvae | Nutchaya KUMRUNGSEE |
TH-13-02 | Pipericide Plus: A New Innovation of Natural Sand Granules Against Aedes Aegypti Larvae | Kalayapat THANASIRIPHONCHAI |
TH-13-03 | Pipericide Plus: A New Innovation of Natural Sand Granules Against Aedes Aegypti Larvae | Chatwadee SAIYAITONG |
TH-14 | Indole-3-Carbinol Test Kit in Dietary Supplement Products | Kosin Teeparuksapun, Apichai Phonchai and Nuchalee Thipmontha |
TH-14-01 | Indole-3-Carbinol Test Kit in Dietary Supplement Products | Kosin Teeparuksapun |
TH-14-02 | Indole-4-Carbinol Test Kit in Dietary Supplement Products | Apichai Phonchai |
TH-14-03 | Indole-5-Carbinol Test Kit in Dietary Supplement Products | Nuchalee Thipmontha |
TH-15 | Red Calo Miracle Lip Balm | Wanninee Chankaew, Angkana Saikeur and Pensri Penprapai |
TH-15-01 | Red Calo Miracle Lip Balm | Wanninee Chankaew |
TH-15-02 | Red Calo Miracle Lip Balm | Angkana Saikeur |
TH-15-03 | Red Calo Miracle Lip Balm | Pensri Penprapai |
TH-16 | Biodiesel Production Unit with the Alkali Earth on Porous Ceramic as a Solid Catalyst | Arrisa Sopajarn, Suhdee Niseng and Panumas Suybangdum |
TH-16-01 | Biodiesel Production Unit with the Alkali Earth on Porous Ceramic as a Solid Catalyst | Arrisa Sopajarn |
TH-16-02 | Biodiesel Production Unit with the Alkali Earth on Porous Ceramic as a Solid Catalyst | Suhdee Niseng |
TH-16-03 | Biodiesel Production Unit with the Alkali Earth on Porous Ceramic as a Solid Catalyst | Panumas Suybangdum |
TH-17 | A Transmission-Blocking Composition Against Plasmodium Vivax | Jetsumon Prachumsri, Wang Nguitragool, Norbert Pardi, Nawapol Kunkeaw, Sathit Pichyangkul |
TH-17-01 | A Transmission-Blocking Composition Against Plasmodium Vivax | Jetsumon Prachumsri |
TH-17-02 | A Transmission-Blocking Composition Against Plasmodium Vivax | Wang Nguitragool |
TH-17-03 | A Transmission-Blocking Composition Against Plasmodium Vivax | Norbert Pardi |
TH-17-04 | A Transmission-Blocking Composition Against Plasmodium Vivax | Nawapol Kunkeaw |
TH-17-05 | A Transmission-Blocking Composition Against Plasmodium Vivax | Sathit Pichyangkul |
TH-18 | 3D Printed Hydroxyapatite and Polyether Ether Ketone (PEEK) Composite for Spinal Fusion | Anak Khantachawana, Katsana Katchamart, Paranee Taveesuk, Supakit Amornthitipong, Woradorn Singhkaew |
TH-18-01 | 3D Printed Hydroxyapatite and Polyether Ether Ketone (PEEK) Composite for Spinal Fusion | Anak Khantachawana |
TH-18-02 | 3D Printed Hydroxyapatite and Polyether Ether Ketone (PEEK) Composite for Spinal Fusion | Katsana Katchamart |
TH-18-03 | 3D Printed Hydroxyapatite and Polyether Ether Ketone (PEEK) Composite for Spinal Fusion | Paranee Taveesuk |
TH-18-04 | 3D Printed Hydroxyapatite and Polyether Ether Ketone (PEEK) Composite for Spinal Fusion | Supakit Amornthitipong |
TH-18-05 | 3D Printed Hydroxyapatite and Polyether Ether Ketone (PEEK) Composite for Spinal Fusion | Woradorn Singhkaew |
TH-19 | Sky Illumination: Drone Light Show | The Radio Control Airplane Modeler Sport Association |
TH-20 | Synthesis of Activated Carbon From Sangmon Bamboo to Absorb Carbon Dioxide Gas | Pongsest Ruangwitthayanusorn, Jirapat Utayapa, Pipatpong Sachan, Chanunphat Khotewong, Pawinee Klangtakai |
TH-20-01 | Synthesis of Activated Carbon From Sangmon Bamboo to Absorb Carbon Dioxide Gas | Pongsest Ruangwitthayanusorn |
TH-20-02 | Synthesis of Activated Carbon From Sangmon Bamboo to Absorb Carbon Dioxide Gas | Jirapat Utayapa |
TH-20-03 | Synthesis of Activated Carbon From Sangmon Bamboo to Absorb Carbon Dioxide Gas | Pipatpong Sachan |
TH-20-04 | Synthesis of Activated Carbon From Sangmon Bamboo to Absorb Carbon Dioxide Gas | Chanunphat Khotewong |
TH-20-05 | Synthesis of Activated Carbon From Sangmon Bamboo to Absorb Carbon Dioxide Gas | Pawinee Klangtakai |
TH-20-06 | Synthesis of Activated Carbon From Sangmon Bamboo to Absorb Carbon Dioxide Gas | Namthip Srikaew |
TH-21 | Study on Efficacy of Insole From Pennisetum Grass and Water Hyacinth With Neem Extract to Inhibit Bacteria Staphylococcus Aureus and Escherichia spp. | Kittisak Phromsawat, Satana Jarucharoenlap, Takdanai Vetthaisong, Suparak Raksa, Mintra Suksamran |
TH-21-01 | Study on Efficacy of Insole From Pennisetum Grass and Water Hyacinth With Neem Extract to Inhibit Bacteria Staphylococcus Aureus and Escherichia spp. | Kittisak Phromsawat |
TH-21-02 | Study on Efficacy of Insole From Pennisetum Grass and Water Hyacinth With Neem Extract to Inhibit Bacteria Staphylococcus Aureus and Escherichia spp. | Satana Jarucharoenlap |
TH-21-03 | Study on Efficacy of Insole From Pennisetum Grass and Water Hyacinth With Neem Extract to Inhibit Bacteria Staphylococcus Aureus and Escherichia spp. | Takdanai Vetthaisong |
TH-21-04 | Study on Efficacy of Insole From Pennisetum Grass and Water Hyacinth With Neem Extract to Inhibit Bacteria Staphylococcus Aureus and Escherichia spp. | Suparak Raksa |
TH-21-05 | Study on Efficacy of Insole From Pennisetum Grass and Water Hyacinth With Neem Extract to Inhibit Bacteria Staphylococcus Aureus and Escherichia spp. | Mintra Suksamran |
TH-22 | Comparison of X-ray Shielding Properties of Natural Rubber Composites Mixed With Sawdust and Bagasse | Chiratthikorn Raksanuan, Papitchaya Yodkaew, Nattapat Petsrikun, Chutikarn Sanghuayprai |
TH-22-01 | Comparison of X-ray Shielding Properties of Natural Rubber Composites Mixed With Sawdust and Bagasse | Chiratthikorn Raksanuan |
TH-22-02 | Comparison of X-ray Shielding Properties of Natural Rubber Composites Mixed With Sawdust and Bagasse | Papitchaya Yodkaew |
TH-22-03 | Comparison of X-ray Shielding Properties of Natural Rubber Composites Mixed With Sawdust and Bagasse | Nattapat Petsrikun |
TH-22-04 | Comparison of X-ray Shielding Properties of Natural Rubber Composites Mixed With Sawdust and Bagasse | Chutikarn Sanghuayprai |
TH-23 | Studying the Effect of Hatching Materials on Hatching Rate for Development as the Egg Incubator of Patanga Succinta (Linn.) | Chawanon Pertkaew, Tanatat Navasetkosol, Chattabut Aunping, Namthip Srikaew and Renu Nualkam |
TH-23-01 | Studying the Effect of Hatching Materials on Hatching Rate for Development as the Egg Incubator of Patanga Succinta (Linn.) | Chawanon Pertkaew |
TH-23-02 | Studying the Effect of Hatching Materials on Hatching Rate for Development as the Egg Incubator of Patanga Succinta (Linn.) | Tanatat Navasetkosol |
TH-23-03 | Studying the Effect of Hatching Materials on Hatching Rate for Development as the Egg Incubator of Patanga Succinta (Linn.) | Chattabut Aunping |
TH-23-04 | Studying the Effect of Hatching Materials on Hatching Rate for Development as the Egg Incubator of Patanga Succinta (Linn.) | Namthip Srikaew |
TH-23-05 | Studying the Effect of Hatching Materials on Hatching Rate for Development as the Egg Incubator of Patanga Succinta (Linn.) | Renu Nualkam |
TH-24 | Study of Crude Extracts From Cassava Leaves in Inhibiting Fungal Growth Lasiodiplodia spp. That Causes Root Rot and Stem Rot | Supitchaya Wannawak, Sirion Phiokhao, Prapinganya Wanthong, Namthip Srikaew and Naruedon Manosri |
TH-24-01 | Study of Crude Extracts From Cassava Leaves in Inhibiting Fungal Growth Lasiodiplodia spp. That Causes Root Rot and Stem Rot | Supitchaya Wannawak |
TH-24-02 | Study of Crude Extracts From Cassava Leaves in Inhibiting Fungal Growth Lasiodiplodia spp. That Causes Root Rot and Stem Rot | Sirion Phiokhao |
TH-24-03 | Study of Crude Extracts From Cassava Leaves in Inhibiting Fungal Growth Lasiodiplodia spp. That Causes Root Rot and Stem Rot | Prapinganya Wanthong |
TH-24-04 | Study of Crude Extracts From Cassava Leaves in Inhibiting Fungal Growth Lasiodiplodia spp. That Causes Root Rot and Stem Rot | Namthip Srikaew |
TH-24-05 | Study of Crude Extracts From Cassava Leaves in Inhibiting Fungal Growth Lasiodiplodia spp. That Causes Root Rot and Stem Rot | Naruedon Manosri |
TH-25 | Quality Improvement in Sorting Systems via Artificial Intelligence | Chuthamat Yuetyao, Punyisar Nilprasert, Suphakan Hinkaeo |
TH-25-01 | Quality Improvement in Sorting Systems via Artificial Intelligence | Chuthamat Yuetyao |
TH-25-02 | Quality Improvement in Sorting Systems via Artificial Intelligence | Punyisar Nilprasert |
TH-25-03 | Quality Improvement in Sorting Systems via Artificial Intelligence | Suphakan Hinkaeo |
TH-25-04 | Quality Improvement in Sorting Systems via Artificial Intelligence | Likit Thoppadids |
TH-26 | Zero-watt Ventilation Roof by Using Hygromorphic Materials | Kantinan Kuljittijanya, Supanat Soiraya and Thanyaphon Intarat |
TH-26-01 | Zero-watt Ventilation Roof by Using Hygromorphic Materials | Kantinan Kuljittijanya |
TH-26-02 | Zero-watt Ventilation Roof by Using Hygromorphic Materials | Supanat Soiraya |
TH-26-03 | Zero-watt Ventilation Roof by Using Hygromorphic Materials | Thanyaphon Intarat |
TH-26-04 | Zero-watt Ventilation Roof by Using Hygromorphic Materials | Nattapon Klinput |
TH-27 | Study of Factors Affecting the Stopping of the Movement of Objects in the Sand | Sirikorn Laosakunthai and Chirapad Sinsawad |
TH-27-01 | Study of Factors Affecting the Stopping of the Movement of Objects in the Sand | Sirikorn Laosakunthai |
TH-27-02 | Study of Factors Affecting the Stopping of the Movement of Objects in the Sand | Chirapad Sinsawad |
TH-27-03 | Study of Factors Affecting the Stopping of the Movement of Objects in the Sand | Makapoom Chumphonwong |
TH-28 | Freshpack: Packaging Helps Prevent the Occurrence of Anthracnose Disease in Fruits | Pacharaporn Janphong, Sasipa Klomdee, Natpassorn Laonet, Wipa Arsingsamanan, Kawao Phromchat |
TH-28-01 | Freshpack: Packaging Helps Prevent the Occurrence of Anthracnose Disease in Fruits | Pacharaporn Janphong |
TH-28-02 | Freshpack: Packaging Helps Prevent the Occurrence of Anthracnose Disease in Fruits | Sasipa Klomdee |
TH-28-03 | Freshpack: Packaging Helps Prevent the Occurrence of Anthracnose Disease in Fruits | Natpassorn Laonet |
TH-28-04 | Freshpack: Packaging Helps Prevent the Occurrence of Anthracnose Disease in Fruits | Wipa Arsingsamanan |
TH-28-05 | Freshpack: Packaging Helps Prevent the Occurrence of Anthracnose Disease in Fruits | Kawao Phromchat |
TH-29 | Flower Color Elegance: Ready-to-Use Fabric Dye Powder Enhanced with Soy Protein and Natural Mordant | Kansinee Vikromprasit, Jirachita Seerang Natpassorn Laonet, Wipa Arsingsamanan, Piyamas Charoenchai |
TH-29-01 | Flower Color Elegance: Ready-to-Use Fabric Dye Powder Enhanced with Soy Protein and Natural Mordant | Kansinee Vikromprasit |
TH-29-02 | Flower Color Elegance: Ready-to-Use Fabric Dye Powder Enhanced with Soy Protein and Natural Mordant | Jirachita Seerang Natpassorn Laonet |
TH-29-03 | Flower Color Elegance: Ready-to-Use Fabric Dye Powder Enhanced with Soy Protein and Natural Mordant | Wipa Arsingsamanan |
TH-29-04 | Flower Color Elegance: Ready-to-Use Fabric Dye Powder Enhanced with Soy Protein and Natural Mordant | Piyamas Charoenchai |
TH-30 | Virtual HOO: Mobile Application for Monthong Durian Ripeness Assessment with Knocking Sounds and Deep Learning | Wanutchaporn Gerdchai, Chananya Pokjan, Thanapon Piluek, Natpassorn Laonet, Wipa Arsingsamanan, Rattapoom Waranusast |
TH-30-01 | Virtual HOO: Mobile Application for Monthong Durian Ripeness Assessment with Knocking Sounds and Deep Learning | Wanutchaporn Gerdchai |
TH-30-02 | Virtual HOO: Mobile Application for Monthong Durian Ripeness Assessment with Knocking Sounds and Deep Learning | Chananya Pokjan |
TH-30-03 | Virtual HOO: Mobile Application for Monthong Durian Ripeness Assessment with Knocking Sounds and Deep Learning | Thanapon Piluek |
TH-30-04 | Virtual HOO: Mobile Application for Monthong Durian Ripeness Assessment with Knocking Sounds and Deep Learning | Natpassorn Laonet |
TH-30-05 | Virtual HOO: Mobile Application for Monthong Durian Ripeness Assessment with Knocking Sounds and Deep Learning | Wipa Arsingsamanan |
TH-30-06 | Virtual HOO: Mobile Application for Monthong Durian Ripeness Assessment with Knocking Sounds and Deep Learning | Rattapoom Waranusast |
TH-31 | Artificial Hair from Banana Fibers | Panrada Klumchuen, Kanyawee Sawatwong, Natpassorn Laonet, Kawao Phromchat, Wipa Arsingsamanan |
TH-31-01 | Artificial Hair from Banana Fibers | Panrada Klumchuen |
TH-31-02 | Artificial Hair from Banana Fibers | Kanyawee Sawatwong |
TH-31-03 | Artificial Hair from Banana Fibers | Natpassorn Laonet |
TH-31-04 | Artificial Hair from Banana Fibers | Kawao Phromchat |
TH-31-05 | Artificial Hair from Banana Fibers | Wipa Arsingsamanan |
TH-32 | DGD Chewing Gum: Chewing Gum Contains Nanocapsules from Indian Gooseberry and Thyme Leaves to Inhabit Oral Bacteria Biofilm | Suchanyanuch Khatti, Phornnapat Jaihaw, Paphangkorn Ramunudom, Natpassorn Laonet, Piyamas Charoenchai |
TH-32-01 | DGD Chewing Gum: Chewing Gum Contains Nanocapsules from Indian Gooseberry and Thyme Leaves to Inhabit Oral Bacteria Biofilm | Suchanyanuch Khatti |
TH-32-02 | DGD Chewing Gum: Chewing Gum Contains Nanocapsules from Indian Gooseberry and Thyme Leaves to Inhabit Oral Bacteria Biofilm | Phornnapat Jaihaw |
TH-32-03 | DGD Chewing Gum: Chewing Gum Contains Nanocapsules from Indian Gooseberry and Thyme Leaves to Inhabit Oral Bacteria Biofilm | Paphangkorn Ramunudom |
TH-32-04 | DGD Chewing Gum: Chewing Gum Contains Nanocapsules from Indian Gooseberry and Thyme Leaves to Inhabit Oral Bacteria Biofilm | Natpassorn Laonet |
TH-32-05 | DGD Chewing Gum: Chewing Gum Contains Nanocapsules from Indian Gooseberry and Thyme Leaves to Inhabit Oral Bacteria Biofilm | Piyamas Charoenchai |
TH-32-06 | DGD Chewing Gum: Chewing Gum Contains Nanocapsules from Indian Gooseberry and Thyme Leaves to Inhabit Oral Bacteria Biofilm | Wipa Arsingsamanan |
TH-33 | AOD Cream: Development of Encapsulation Cream from Spirogyra Extract and Guava Leaf Extract Adding Skin Antioxidants | Pisanupong Kingsai, Primmada Thadaprom, Jirapa Yodphet |
TH-33-01 | AOD Cream: Development of Encapsulation Cream from Spirogyra Extract and Guava Leaf Extract Adding Skin Antioxidants | Pisanupong Kingsai |
TH-33-02 | AOD Cream: Development of Encapsulation Cream from Spirogyra Extract and Guava Leaf Extract Adding Skin Antioxidants | Primmada Thadaprom |
TH-33-03 | AOD Cream: Development of Encapsulation Cream from Spirogyra Extract and Guava Leaf Extract Adding Skin Antioxidants | Jirapa Yodphet |
TH-33-04 | AOD Cream: Development of Encapsulation Cream from Spirogyra Extract and Guava Leaf Extract Adding Skin Antioxidants | Wipa Arsingsamanan |