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RESEARCH PAPER 1

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Amandeep Singh
Amandeep Singh

1) The document proposes a new technique to transfer battery power from one Android phone to another using a connecting cable and dedicated app. 2) The technique works by using the concept of potential difference, where the phone with the higher battery potential acts as the donor and the phone with lower potential acts as the receiver. 3) The connecting cable and app allow monitoring of the battery transfer process and ensure compatibility between similar hardware specifications.

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International Journal Vision & Quest (0975-8410) SAVOIR MANTRNA (2014) ABES Engineering College Ghaziabad (U.P.) 201009 ANDROID PHONES BATTERY DONATOR Amandeep Singh Computer Science & Engineering UPES, Dehradun Amandeep.singh6@stu.upes.ac.in I. INTRODUCTION Battery life can be the answer or phone throwing annoyance that does and doesn’t allows us to endlessly text and use smart phone’s to their optimum capacity. But if you don’t want to be tethered to a wall outlet like a mother leashed to a child there’s a new solution you can partake in with friends. This is using a gadget which is actually used to transfer the battery from one phone to another using a mode of communication. This is very advance technique which will help millions of users in terms of battery backups. With the computing power and energy consumption of the mobile devices skyrocketing these days, there is a need to have a charger handy all the time to keeps the device going. And although physical world is not as easy as the virtual world to manipulate with apps. I believe using technology that has evolved for other reasons; it is possible to control certain aspects of the physical world with apps – like sharing battery power from one device to another. This is perfectly new technology which can make a revolutionary change. Well this is how using the cable the two phones will be connected and further using the application built on the android platform this can be transferred. Application is used for monitoring the transfer of battery. II. BASIC IDEA The basic idea behind this is “potential difference “ the charge transfer from high potential to the low potential this very basic idea is used in this transfer of battery where the battery with the high potential can act as donor while on the other side
International Journal Vision & Quest (0975-8410) SAVOIR MANTRNA (2014) ABES Engineering College Ghaziabad (U.P.) 201009 battery with low potential will act as gainer . The same idea is used here for transfer of battery from one phone to another. The one goes on decreasing and other goes on increasing. III. TYPES These can be of many types using: A. one-one connection B. Two-one connection This both set can be used as per the availability and obviously the 2 sharing gadget will enable more battery transfer as there are 2 donors.
International Journal Vision & Quest (0975-8410) SAVOIR MANTRNA (2014) ABES Engineering College Ghaziabad (U.P.) 201009 IV. COMPATIBLITY This can be used in similar hardware or specifications as the architecture can be different from phone to phone i.e. this are the only drawback of it kind which is found yet. This is also available for IOS devices with cool gadgets. V. APPLICATION The application that is developed is purely android basis which actually will monitor this battery transfer. This is developed in ADT bundle that is using Eclipse IDE to develop the .apk extension app for android device. This application contains two buttons which actually helps you to be act as donor or gainer respectively transferring the battery it also monitors the time in how much time the battery gets transferred. VI. OTHER USES It can also be used in charging the smart watch which is very common these days. As smart watch is so handy and less power
International Journal Vision & Quest (0975-8410) SAVOIR MANTRNA (2014) ABES Engineering College Ghaziabad (U.P.) 201009 so this is also one of the different features which can be used in recharging the battery of the watch. VII. CURRENT SCENARIO It’s currently running in US efficiently in Smart phones it is not officially available but is developed by some of the students and working fine with these gadgets. VIII. FUTURE SCOPE Instead of using wires NFC technology can be used in transferring of battery . Yes, with an app. And this is how we go about it. Almost all smart devices beyond 2012 are expected to have NFC(Near Field Communication) capability enabled in them. NFC is based on an age old concept that is shared with cooking hobs and AC generators – electromagnetic induction. In simple form, NFC hardware is made up of an inductive coil that creates an alternating magnetic field. When a new device with another similar antenna is bought near this device, the magnetic field induces current to flow and energy is transferred. The NFC software stack uses this hardware to embed data and transfer it to another device that is close by. The energy involved in a traditional NFC application is quite minimal because it is aimed for data transmission. But the same hardware can be used with some minor additions to transfer battery power over the air. The idea is to connect a charging circuit from the NFC circuit to the battery charger and this gets enabled only when the charging app is invoked and the circuit feeds the energy tapped via NFC to the battery. The donor can choose how much battery he/she can afford to share and then both the donor and the receiver have to leave the phones near each other. ACKNOWLEDGEMENT This research paper is made possible through the help and support from everyone, Including my parents, teachers, family, friends, and in essence, all sentient beings. Especially, please allow me to dedicate my acknowledgment of gratitude toward the Following significant advisors and contributors: I would like to thank Dr. H G SASTRY, MR. P K DEKA & MR. RAVI TOMAR for his most support and encouragement. He kindly read my paper and offered invaluable detailed advices on grammar, organization, and the theme of the paper.
International Journal Vision & Quest (0975-8410) SAVOIR MANTRNA (2014) ABES Engineering College Ghaziabad (U.P.) 201009 REFERENCES [1] http://www.new- startups.com/mobile/share-iphone-battery- power-with-friends/ [2] http://www.basebandhub.com/2011/04/11/the- battery-power-sharing-app/ [3] http://www.spicytec.com/2013/07/juice- up.html

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RESEARCH PAPER 1

  • 1. International Journal Vision & Quest (0975-8410) SAVOIR MANTRNA (2014) ABES Engineering College Ghaziabad (U.P.) 201009 ANDROID PHONES BATTERY DONATOR Amandeep Singh Computer Science & Engineering UPES, Dehradun Amandeep.singh6@stu.upes.ac.in I. INTRODUCTION Battery life can be the answer or phone throwing annoyance that does and doesn’t allows us to endlessly text and use smart phone’s to their optimum capacity. But if you don’t want to be tethered to a wall outlet like a mother leashed to a child there’s a new solution you can partake in with friends. This is using a gadget which is actually used to transfer the battery from one phone to another using a mode of communication. This is very advance technique which will help millions of users in terms of battery backups. With the computing power and energy consumption of the mobile devices skyrocketing these days, there is a need to have a charger handy all the time to keeps the device going. And although physical world is not as easy as the virtual world to manipulate with apps. I believe using technology that has evolved for other reasons; it is possible to control certain aspects of the physical world with apps – like sharing battery power from one device to another. This is perfectly new technology which can make a revolutionary change. Well this is how using the cable the two phones will be connected and further using the application built on the android platform this can be transferred. Application is used for monitoring the transfer of battery. II. BASIC IDEA The basic idea behind this is “potential difference “ the charge transfer from high potential to the low potential this very basic idea is used in this transfer of battery where the battery with the high potential can act as donor while on the other side
  • 2. International Journal Vision & Quest (0975-8410) SAVOIR MANTRNA (2014) ABES Engineering College Ghaziabad (U.P.) 201009 battery with low potential will act as gainer . The same idea is used here for transfer of battery from one phone to another. The one goes on decreasing and other goes on increasing. III. TYPES These can be of many types using: A. one-one connection B. Two-one connection This both set can be used as per the availability and obviously the 2 sharing gadget will enable more battery transfer as there are 2 donors.
  • 3. International Journal Vision & Quest (0975-8410) SAVOIR MANTRNA (2014) ABES Engineering College Ghaziabad (U.P.) 201009 IV. COMPATIBLITY This can be used in similar hardware or specifications as the architecture can be different from phone to phone i.e. this are the only drawback of it kind which is found yet. This is also available for IOS devices with cool gadgets. V. APPLICATION The application that is developed is purely android basis which actually will monitor this battery transfer. This is developed in ADT bundle that is using Eclipse IDE to develop the .apk extension app for android device. This application contains two buttons which actually helps you to be act as donor or gainer respectively transferring the battery it also monitors the time in how much time the battery gets transferred. VI. OTHER USES It can also be used in charging the smart watch which is very common these days. As smart watch is so handy and less power
  • 4. International Journal Vision & Quest (0975-8410) SAVOIR MANTRNA (2014) ABES Engineering College Ghaziabad (U.P.) 201009 so this is also one of the different features which can be used in recharging the battery of the watch. VII. CURRENT SCENARIO It’s currently running in US efficiently in Smart phones it is not officially available but is developed by some of the students and working fine with these gadgets. VIII. FUTURE SCOPE Instead of using wires NFC technology can be used in transferring of battery . Yes, with an app. And this is how we go about it. Almost all smart devices beyond 2012 are expected to have NFC(Near Field Communication) capability enabled in them. NFC is based on an age old concept that is shared with cooking hobs and AC generators – electromagnetic induction. In simple form, NFC hardware is made up of an inductive coil that creates an alternating magnetic field. When a new device with another similar antenna is bought near this device, the magnetic field induces current to flow and energy is transferred. The NFC software stack uses this hardware to embed data and transfer it to another device that is close by. The energy involved in a traditional NFC application is quite minimal because it is aimed for data transmission. But the same hardware can be used with some minor additions to transfer battery power over the air. The idea is to connect a charging circuit from the NFC circuit to the battery charger and this gets enabled only when the charging app is invoked and the circuit feeds the energy tapped via NFC to the battery. The donor can choose how much battery he/she can afford to share and then both the donor and the receiver have to leave the phones near each other. ACKNOWLEDGEMENT This research paper is made possible through the help and support from everyone, Including my parents, teachers, family, friends, and in essence, all sentient beings. Especially, please allow me to dedicate my acknowledgment of gratitude toward the Following significant advisors and contributors: I would like to thank Dr. H G SASTRY, MR. P K DEKA & MR. RAVI TOMAR for his most support and encouragement. He kindly read my paper and offered invaluable detailed advices on grammar, organization, and the theme of the paper.
  • 5. International Journal Vision & Quest (0975-8410) SAVOIR MANTRNA (2014) ABES Engineering College Ghaziabad (U.P.) 201009 REFERENCES [1] http://www.new- startups.com/mobile/share-iphone-battery- power-with-friends/ [2] http://www.basebandhub.com/2011/04/11/the- battery-power-sharing-app/ [3] http://www.spicytec.com/2013/07/juice- up.html