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1. 发明专利

AU2020104340A4 SUSTAINABLE GREENHOUSE FOR CROPS & DRYING OF HERBAL MEDICINAL PLANTS 未知
公开(公告)号：AU2020104340A4
公开(公告)日：2021-03-18
申请号：AU2020104340
申请日：2020-12-24
申请人： PANDA RAMESH CHANDRA , DAHIYA SAURABH , MULLEMWAR SUYASH YASHWANTRAO , PANDIAN P PAL , GUPTA MANOJ , ROUT IVAN SUNIT , CHAND LAXMI , GAUR SACHIN , KUMAR BIJENDRA , JAIN HARSHA , B S PRATHIBHA , KAKDE AKSHAY ASHOKRAO , BHATTACHARYYA SONALI
发明人： PANDA RAMESH CHANDRA , DAHIYA SAURABH , MULLEMWAR SUYASH YASHWANTRAO , PANDIAN P PAL , GUPTA MANOJ , ROUT IVAN SUNIT , CHAND LAXMI , GAUR SACHIN , KUMAR BIJENDRA , JAIN HARSHA , B S PRATHIBHA , KAKDE AKSHAY ASHOKRAO , BHATTACHARYYA SONALI
IPC分类号： A01G9/24 , A01G9/26
摘要： SUSTAINABLE GREENHOUSE FOR CROPS & DRYING OF HERBAL MEDICINAL PLANTS This solar assisted sustainable greenhouse provides a suitable environmental temperature for cultivation and drying of various expensive medicinal plants. It is properly designed to provide control as well as to maintain solar radiation, temperature, humidity, and carbon dioxide levels inside the green house. Continuous AC supply voltage is obtained from a flexible solar panel, inverter and battery and fed to the temperature blower to produce continuous heating. The temperature controller has to control the temperature every moment. This total system is again controlled by LoRaWAN -Based Temperature & Humidity Sensor LW02 and digital temperature controller by an android mobile phone. The lora wifi module can be in operation to a range up to 3 kilometres. It is note-worthy to suggest that the temperature should be maintained appropriately for coping up with the green house environment suitable to cultivating and drying of medicinal plants range starting from 30 to 80 degree centigrade. Figure 1: Circuit diagram of this work-frame

2. 发明专利

AU2021101143A4 SUSTAINABLE REMOTE ASSISTED & TRANSPORTABLE NEONATAL CARE DEVICE FOR JAUNDICE TREATMENT 未知
公开(公告)号：AU2021101143A4
公开(公告)日：2021-05-06
申请号：AU2021101143
申请日：2021-03-03
申请人： CHANDRA PANDA RAMESH DR , CHHIKARA ARUNA DR , DAHIYA SAURABH DR , DEVI V AJANTHA DR , DHALL SAMANTA LOKANATHA DR , KAUR INDERJEET DR , KUMAR PANDA SANTOSH DR , KUMAR SHUKLA PIYUSH DR , MAHAPATRA BANDANA DR , PRATAP SINGH YADAV JAY KANT ENGR , RAMESHKUMAR M DR , SARAVANA KUMAR E DR
发明人： KUMAR PANDA SANTOSH , DAHIYA SAURABH , DEVI V AJANTHA , KUMAR SHUKLA PIYUSH , MAHAPATRA BANDANA , RAMESHKUMAR M , SARAVANA KUMAR E , DHALL SAMANTA LOKANATHA , CHHIKARA ARUNA , KAUR INDERJEET , PRATAP SINGH YADAV JAY KANT , CHANDRA PANDA RAMESH
IPC分类号： A61N5/06
摘要： SUSTAINABLE REMOTE ASSISTED & TRANSPORTABLE NEONATAL CARE DEVICE FOR JAUNDICE TREATMENT Jaundice is one of the most common diseases for a newly born baby. About 50% of the term and 80% of preterm babies develop jaundice which usually appears 2 to 4 days after birth, and resolves spontaneously after 1 to 2 weeks. Jaundice is caused by bilirubin deposition in the skin. Most jaundice in new born infants is a result of increased red cell breakdown and decreased bilirubin excretion. During this period the treatment of the baby is very much necessary from health ground. Out of many treatments phototherapy is one of the most commonly used treatments for jaundice that can be used as a simple, practical home-based treatment. It is not all advisable to hospitalize the affected baby during the first few days of its birth to carry out the phototherapy which may give rise to the problems like nosocomial infections and mother separation from the baby. Although home phototherapy can be suggested as a safe treatment with no complication to the patients, but his weight, at this stage is brought down to 11% below his birth weight. The treatment also is costly which can't be easily afforded by the poor people. This portable device delivers blue light with the peak intensity at 455 nm, LED intensity 50 cm-2 nm-1, wavelength 450-460 nm & tilting angle 45 degree with no unwanted UV and IR radiation on the baby. A Digital Temperature Controller microcomputer thermostat switch module and mini digital LCD thermometer with gauge probe sensor fitted with the device. Clear heat resistant extruded moisture resistant acrylic sheets used to fabricate this innovation. 1. Rechargeable battery 2. Digital display with probe sensors and mini Mini Electric Portable Handy Heater 3. Ventilator 4. LED light 5 Probe Sensors 6. Battery charge indicator Fig 1: The compact device Fig 2: Temperature Controller Microcomputer Thermostat Switch

3. 发明专利

AU2021102310A4 IoT BASED SUSTAINABLE INCINERATOR FOR BIOMEDICAL AND PHARMACEUTICAL WASTE 未知
公开(公告)号：AU2021102310A4
公开(公告)日：2021-06-17
申请号：AU2021102310
申请日：2021-05-01
申请人： BANSAL NISHU , CHANDRA PANDA RAMESH , DAHIYA SAURABH , GANDHI SACHEEN , LOHANA SARIKA , PAHUJA SWIMPY , RINKAL MANSUKHBHAI SARDHARA , SAHOO NIRANJAN , SAINI GARIMA , TYAGI PRIYANKA , VIRMANI TARUN
发明人： CHANDRA PANDA RAMESH , VIRMANI TARUN , LOHANA SARIKA , SAHOO NIRANJAN , TYAGI PRIYANKA , DAHIYA SAURABH , GANDHI SACHEEN , BANSAL NISHU , PAHUJA SWIMPY , SAINI GARIMA , RINKAL MANSUKHBHAI SARDHARA
IPC分类号： F23G5/50 , B09B3/00 , F23G7/00 , F24S20/30 , F24S23/71 , G08C17/02 , H04Q9/00 , H04W4/38
摘要： IoT BASED SUSTAINABLE INCINERATOR FOR BIOMEDICAL AND PHARMACEUTICAL WASTE Abstract: The accumulation of unused and expired medicines at homes has significantly enlarged in recent years, which has brought about medicines wastage. The general population, medical care suppliers, and governments are completely blamed for unexpectedly advancing medicine wastage, and hence, they should be focused to take care of the issue. Nonsteroidal anti inflammatory drugs such as paracetamol, aspirin, ibuprofen are some of the most commonly wasted medicines and the majority of the public simply discard their unused and expired medicines in the garbage or toilet which can harm aquatic life and dangerous for the environment also. Non-adherence, death of a person taking medicines, and change in medicines of a particular person is the main reason behind the accumulation of unused and expired medicines which ultimately lead to the wastage of medicines. There are various reasons behind the accumulation of unused and expired medicines at homes such as carelessness, lack of education, and ignorance by the community that may prompt un favourable monetary and natural effects. There are many ways by which we can safely dispose of unused and expired medicines such as chemical disinfection, microwaving, autoclaving, secure landfilling, deep burial, sewer treatment, waste encapsulation, waste immobilization, and incineration or thermal treatment. Out of the above-mentioned techniques, the incinerator is considered as one of the most effective methods for the disposal of solid, liquid as well as gaseous pharmaceutical and biomedical waste. But there are few limitations with the incinerator technique such as high voltage electricity consumption, management of ash and gases produced after incineration. The main aim of the study is to design a novel sustainable incinerator that can overcome the limitations associated with conventional incinerators such as consumption of high voltage, production of ash and gases. Installation of solar panels can reduce the electricity workload which may lead to sustainability, gases produced during incineration can be minimized by using high-efficiency particulate air filters and carbon filters. Besides this, during incineration, if there will be incomplete combustion of biomedical and pharmaceutical waste then it may be utilized in terms of alternate biofuels. Joint work among general society, medical services suppliers, and different administrative and private associations is expected to sufficiently address the issue of drug wastage. Figure: IoT based automatic control of Solar furnace

4. 发明专利

AU2021103371A4 SOLAR ASSISTED IOT BASED AUTOMATIC VERTICAL MEDICINAL PLANT CULTIVATION OF CRITICALLY ENDANGERED PLANT NARDOSTACHYS JATAMANSI 未知
公开(公告)号：AU2021103371A4
公开(公告)日：2022-03-24
申请号：AU2021103371
申请日：2021-06-15
申请人： ARVINDBHAI JANI KEYURBHAI PROF , BEHERA DEBASHREE PROF , CHADHA HINA PROF , CHAUBEY NIRBHAY DR , DAHIYA SAURABH DR , DAS SHIV DR , GOEL KAPIL , KUMAR ASHWANI DR , RAKSHA PROF , SHAH VRUSHANK DR , SINGHAL PEEUSH DR , VIRMANI TARUN DR
发明人： DAHIYA SAURABH , CHAUBEY NIRBHAY , DAS SHIV , VIRMANI TARUN , KUMAR ASHWANI , ARVINDBHAI JANI KEYURBHAI , SHAH VRUSHANK , RAKSHA , CHADHA HINA , BEHERA DEBASHREE , SINGHAL PEEUSH , GOEL KAPIL
IPC分类号： A01G9/24 , A01G9/02 , A01G22/25 , A01G27/00
摘要： SOLAR ASSISTED IOT BASED AUTOMATIC VERTICAL MEDICINAL PLANT CULTIVATION OF CRITICALLY ENDANGERED PLANT NARDOSTACHYS JATAMANSI The current scenario, particularly the Covid-19 pandemic outbreak, has reawakened public interest in alternative medical systems. People have begun to use plant-based medications in far greater numbers than in the past. The demand for medicinal plant parts for direct use or the manufacture of various sorts of dosage forms by phyto pharmaceutical manufacturing enterprises has put enormous strain on forest resources around the world. The Himalayan region of India is a treasure trove for getting herbal remedies; however, there has been a lack of these plant sources due to ever-increasing demand and escalating overuse of natural habitats of these plants. To prevent the critically endangered Nardostachys Jatamansi from becoming extinct in Himalayas and to ensure its availability for future generations, we developed an IoT-based autonomous vertical cultivation approach. This approach would take up the least amount of land because it is built on a vertical slope, and it would include an automatic water irrigation system in the form of mist and drop sprinklers, as well as temperature and humidity sensors, to control these essential cultivation variables. For germination and greater seedling survival, Nardostachys Jatamansi demands moist, slightly sunny regions with sandy loam and acidic soil rich in organic carbon and nitrogen. Even though this plant's native occurrence ranges from 3000-5000 meters on the Himalayan Alpine slopes, cultivation of this plant would be possible at lower elevations with improved crop yields thanks to our innovation. Our unique IoT-based farming method would not only conserve critically endangered plants in the present, but it would also serve as a model for their regular supply for future patient benefits. Our innovation is an uncomplicated cloud based IoT system based on the Arduino/ESP8266 and a remote MQTT broker. It uses the intemet to connect to a remote MQTT broker. An Android mobile app is used to link to the broker, allowing to monitor and control irrigation pump set at all times, the set up utilizes DHT22 humidity and temperature sensors, light intensity sensor. ESP 8266 WIFI module is used for cloud communication. 1-ARDUINO NANO 2-DHT22 (HUMIDITY AND TEMPERATURESENSOR 3- CAPACITIVE SOIL MOISTURE SENSOR 4-LIGHT INTENSITY SENSOR 5-ESP 8266 WIR MODULE WITH ANTENNA 6-RELAYSWITCH CONNECTED IK 2 en D5,D6 USED FOR SOFTWARE SERIAL Fig 1: Wiring diagram of the monitoring and control system of the vertical Plant-based cultivation system receive receivelsend data monkering dat over wifi from cloud the sensors Mu Fig 2: The flow chart of the monitoring system

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