![ADVANCING OF POWER MANAGEMENT IN HOME WITH
SMART GRID TECHNOLOGY AND SENSOR NOSE
1Shaik Nagulmeera Nurjahan, 2 M Kezia Aruna Jyothi,
1
PG scholar of Embedded System , 2
Associate Professor
1, 2
Audisankara College Of Engineering and Technology [SANK] (Autonomous).
Abstract—The outline and improvement of a
shrewd monitoringand controlling framework for
family unit electrical apparatuses in realtime has
been accounted for in this paper. The framework
primarily screens electrical parameters of family
apparatuses, for example, voltage and current and
in this way computes the force devoured. The
curiosity of this framework is the usage of the
controlling system of apparatuses in various
ways. The created framework is an ease and
adaptable in operation and subsequently can
spare power cost of the purchasers. The model
has been widely tried, all things considered,
circumstances and test results are extremely
reassuring.
Index Terms—Energy management, home
automation, intelligent control framework,
remote sensor system, ZigBee.
INTRODUCTION
It is anticipated that administration and individual
consideration remote mechatronic frameworks
will turn out to be increasingly universal athome
soon and will be exceptionally helpful in assistive
social insurance especially for the elderly and
debilitated individuals Wireless mechatronic
frameworks comprise of various spatially
disperse sensors with limited information
accumulation and processing capability to
monitor the environmental situation. Wireless
sensor systems (WSNs) have turned out to be
progressively essential due to their capacity to
screen and oversee situational data for different
astute administrations. Due to those
advantages,WSNs has been connected in
numerous fields, for example, the military,
business, ecological checking, and medicinal
services TheWSNs are increasingly being
utilized as a part of the home for energy
controlling services. General family machines are
checked and controlled by WSNs introduced in
the home New advances incorporate front line
progressions in data innovation, sensors,
metering, transmission, conveyance, and power
stockpiling innovation, and in addition giving
new data and adaptability to both buyers and
suppliers of power. There has been outline and
advancements of shrewd meters foreseeing the
utilization of force utilization However, a ease,
adaptable, and strong framework to continuously
monitor and control based on consumer
requirements is at theearly stages of
development. In this study, we have planned and
actualized a ZigBee-based astute home vitality
administration and control administration. The
paper concentrates on human-accommodating
specialized answers for checking and simple
control of family apparatuses. The inhabitant’s
comfort will be increased and better assistance
can be provided. This paper accentuates the
acknowledgment of observing and controlling of
electrical machines from multiple points of view.
The created framework has the accompanying
distinct features. Use of Traic with opto-
disengaged driver for controlling electrical
machines: Household apparatuses are controlled
either remotely or automatically with the help of
fabricated shrewd detecting unit comprising of
triac –BT138 No chip/microcontroller: The
configuration of savvy detecting unit does not
require a preparing unit at the sensing end.
Adaptability in controlling the apparatuses:
Depending on the client necessities, machines
can be checked and controlled in various ways.
Section III-B talks about the different choices of
controlling the gadgets. Whatever remains of this
paper is composed as takes after: Section II
discusses the related work and investigation of
WSN’s constraintsfor home vitality
administration systems; Section III
providesdetailed usage of the developed system;
Section IVpresents the experimental results
ISBN-13: 978-1539045540
www.iirdem.org
Proceedings of ICEEM-2016-Chennai
©IIRDEM 201629](https://image.slidesharecdn.com/advancingofpowermanagementinhomewithsmartgridtechnology-160929095055/85/iirdem-ADVANCING-OF-POWER-MANAGEMENT-IN-HOME-WITH-SMART-GRID-TECHNOLOGY-AND-SENSOR-NOSE-1-320.jpg)
![todetermine the wellness of the inhabitant in
terms of energy consumption.
REFERENCES
[1] X. P. Liu, W. Gueaieb, S. C. Mukhopadhyay,
W. Warwick, and Z. Yin, "Visitor publication
prologue to the engaged area on remote
mechatronics," IEEE/ASME Trans.
Mechatronics, vol. 17, no. 3, pp. 397–403,
Jun. 2012.
[2] D. S. Ghataoura, J. E. Mitchell, and G.
E.Matich, "Systems administration and
application interface innovation for remote
sensor system observation and checking," IEEE
Commun. Mag., vol. 49, no. 10, pp. 90–97, Oct.
2011.
[3] P. Cheong, K.- F.Chang, Y.- H.Lai, S.- K. Ho,
I.- K. Sou, and K.- W. Tam, "A zigbee-based
remote sensor system hub for bright identification
of fire," IEEE Trans. Ind. Electron., vol. 58, no.
11, pp. 5271–5277, Nov. 2011.
[4] J. Misic and V. B. Misic, "Span execution in
a multitier remote system for social insurance
observing," IEEE Wireless Commun., vol. 17,
no. 1, pp. 90–95, Feb. 2010.
[5] M. Erol-Kantarci and H. T. Mouftah, "Remote
sensor systems for costefficient private vitality
administration in the keen network," IEEE
Trans.Smart Grid, vol. 2, no. 2, pp. 314–325, Jun.
2011.
[6] ZigBee organization together looking at
Japan's new keen home suggestions (got to on 8
Aug., 2012). [Online]. Accessible:
http://www.smartmeters.com/the-news/3449-
zigbee-collusion
[7] The expenses and advantages of keen meters
for private clients (got to on 4Apr. 2012).
[Online].Available: ttp://www.edisonfoundation.
net/iee/Documents/IEE_BenefitsofSmartMeters
_Final.pdf
[8] L. Li, H. Xiaoguang, H. Jian, and H. Ketai,
"Configuration of new engineering of AMR
framework in Smart Grid," in Proc. sixth IEEE
Conf. Ind. Electron.Appl., 2011, pp. 2025–2029.
[9] E. Andrey and J. Morelli, "Configuration of a
savvy meter techno-monetary model for electric
utilities in Ontario," in Proc. IEEE-Electric
PowerEnergy Conf., 2010, pp. 1–7.
[10] D. Man Han and J. Hyun Lim, "Shrewd
home vitality administration framework utilizing
IEEE 802.15.4 and zigbee," IEEE Trans. Buyer
Electron., vol. 56, no. 3, pp. 1403–1410, Aug.
2010.
[11] V. N. Kamat, "Empowering an electrical
insurgency utilizing savvy evident vitality meters
and taxes," in Proc. Annu. IEEE India Conf.,
2011, pp. 1–4.
[12] F. Benzi, N. Anglani, E. Bassi, and L.
Frosini, "Power shrewd meters interfacing the
family units," IEEE Trans. Ind. Electron., vol. 58,
no. 10, pp. 4487–4494, Oct. 2011.
[13] I. Kunold, M. Kuller, J. Bauer, and N.
Karaoglan, "A framework idea of a vitality data
framework in pads utilizing remote advances and
savvy metering gadgets," in Proc. IEEE sixth Int.
Conf. Intell. Information AcquisitionAdv.
Comput. Syst., 2011, pp. 812–816.
[14] Triacs-BT 138 Series, Philips
Semiconductors (got to on 8 Jan. 2012). [Online].
Accessible: http://docs-
asia.electrocomponents.com/webdocs/
0b4b/0900766b80b4bf38.pdf
[15] J. Han, C. S. Choi, and I. Lee, "More
productive home vitality administration
framework in view of zigbee correspondence and
infrared remote controls," IEEE Trans. Customer
Electron., vol. 57, no. 1, pp. 85–89, Feb. 2011.
[16] K. Gill, S. H. Yang, F. Yao, and X. Lu, "A
zigbee-based home computerization framework,"
IEEE Trans. Buyer Electron., vol. 55, no. 2, pp.
422–430, May 2009.
[17] M. S. Skillet, L. W. Yeh, Y. A. Chen, Y. H.
Lin, and Y. C. Tseng, "A WSNbased astute light
control framework considering client exercises
and profiles," IEEE Sensors J., vol. 8, no. 10, pp.
1710–1721, Oct. 2008.
[18] G. Tune, Z. Wei, W. Zhang, and A. Melody,
"A half and half sensor system framework for
home observing applications," IEEE Trans.
Buyer Electron., vol. 53, no. 4, pp. 1434–1439,
Nov. 2007.
[19] C. Suh and Y. B. Ko, "Outline and execution
of astute home control frameworks taking into
account dynamic sensor systems," IEEE Trans.
ConsumerElectron., vol. 54, no. 3, pp. 1177–
1184, Aug. 2008.
[20] K. D. Nguyen, I. M. Chen, Z. Luo, S. H. Yeo,
and H. B. L. Duh, "A wearable detecting
framework for following and observing of useful
arm development," IEEE/ASME Trans.
ISBN-13: 978-1539045540
www.iirdem.org
Proceedings of ICEEM-2016-Chennai
©IIRDEM 201632](https://image.slidesharecdn.com/advancingofpowermanagementinhomewithsmartgridtechnology-160929095055/85/iirdem-ADVANCING-OF-POWER-MANAGEMENT-IN-HOME-WITH-SMART-GRID-TECHNOLOGY-AND-SENSOR-NOSE-4-320.jpg)
iirdem ADVANCING OF POWER MANAGEMENT IN HOME WITH SMART GRID TECHNOLOGY AND SENSOR NOSE
- 1. ADVANCING OF POWER MANAGEMENT IN HOME WITH SMART GRID TECHNOLOGY AND SENSOR NOSE 1Shaik Nagulmeera Nurjahan, 2 M Kezia Aruna Jyothi, 1 PG scholar of Embedded System , 2 Associate Professor 1, 2 Audisankara College Of Engineering and Technology [SANK] (Autonomous). Abstract—The outline and improvement of a shrewd monitoringand controlling framework for family unit electrical apparatuses in realtime has been accounted for in this paper. The framework primarily screens electrical parameters of family apparatuses, for example, voltage and current and in this way computes the force devoured. The curiosity of this framework is the usage of the controlling system of apparatuses in various ways. The created framework is an ease and adaptable in operation and subsequently can spare power cost of the purchasers. The model has been widely tried, all things considered, circumstances and test results are extremely reassuring. Index Terms—Energy management, home automation, intelligent control framework, remote sensor system, ZigBee. INTRODUCTION It is anticipated that administration and individual consideration remote mechatronic frameworks will turn out to be increasingly universal athome soon and will be exceptionally helpful in assistive social insurance especially for the elderly and debilitated individuals Wireless mechatronic frameworks comprise of various spatially disperse sensors with limited information accumulation and processing capability to monitor the environmental situation. Wireless sensor systems (WSNs) have turned out to be progressively essential due to their capacity to screen and oversee situational data for different astute administrations. Due to those advantages,WSNs has been connected in numerous fields, for example, the military, business, ecological checking, and medicinal services TheWSNs are increasingly being utilized as a part of the home for energy controlling services. General family machines are checked and controlled by WSNs introduced in the home New advances incorporate front line progressions in data innovation, sensors, metering, transmission, conveyance, and power stockpiling innovation, and in addition giving new data and adaptability to both buyers and suppliers of power. There has been outline and advancements of shrewd meters foreseeing the utilization of force utilization However, a ease, adaptable, and strong framework to continuously monitor and control based on consumer requirements is at theearly stages of development. In this study, we have planned and actualized a ZigBee-based astute home vitality administration and control administration. The paper concentrates on human-accommodating specialized answers for checking and simple control of family apparatuses. The inhabitant’s comfort will be increased and better assistance can be provided. This paper accentuates the acknowledgment of observing and controlling of electrical machines from multiple points of view. The created framework has the accompanying distinct features. Use of Traic with opto- disengaged driver for controlling electrical machines: Household apparatuses are controlled either remotely or automatically with the help of fabricated shrewd detecting unit comprising of triac –BT138 No chip/microcontroller: The configuration of savvy detecting unit does not require a preparing unit at the sensing end. Adaptability in controlling the apparatuses: Depending on the client necessities, machines can be checked and controlled in various ways. Section III-B talks about the different choices of controlling the gadgets. Whatever remains of this paper is composed as takes after: Section II discusses the related work and investigation of WSN’s constraintsfor home vitality administration systems; Section III providesdetailed usage of the developed system; Section IVpresents the experimental results ISBN-13: 978-1539045540 www.iirdem.org Proceedings of ICEEM-2016-Chennai ©IIRDEM 201629
- 2. what's more, Section V has concludedand discussed about the future work. II. RELATED WORK In this segment, we quickly discuss the existing works aboutsmart home frameworks in light of the wireless communication technology.The proposed framework comprises of an automaticstandby power cutoff outlet, a ZigBee center and a server. The power outlet with a ZigBee module cuts off the air conditioner power when the vitality utilization of the gadget associated with the power outlet is beneath a settled value. The Master Node collects informationfrom the power channels and controls these power channels through the ZigBee module. The Master Node sends the presentstate data to a server and after that a client can screen or control the present vitality utilization utilizing the HEMS client interface. The essential idea of this paper is a roaming sensor that moves the suitable area and participates in the system when the system is disconnected. The aforementioned home checking and controlling systemshave limitations with respect to true home automation suchas: 1) energy consumption control mechanism is limited to onlycertain devices like light illuminations, whereas several householdappliances can be controlled; 2) energy control is based onfixed threshold power consumption, which may not be applicableto different consumers; 3) controlling the home appliances through network management functions, in practice inhabitant requirements may differ as per their conduct yet not with network characteristics. Fig.1. Functional block diagram of the system. III. SYSTEM DESCRIPTION The framework has been intended for measurement of electrical parameters of family unit apparatuses. Important functions to thesystem are the ease of modeling, setup, and use. From the consumer point of view, electrical power consumption of various appliances in a house along with supply voltage and current is the key parameter. Fig. 1 shows the functional description of thedeveloped system to monitor electrical parameters and controlappliances based on the consumer requirements. The estimation of electrical parameters of home appliances is done by interfacing with created detecting modules. The subtle elements of the outline and advancement of the sensing modules are provided in the following sections. The output signalsfrom the sensors are integrated and connected to XBee module for transmitting electrical parameters data wirelessly. The XBee modules are interfaced with various sensing devices and interconnectedin the form of mesh topology to have reliable datareception at a centralized ZigBee coordinator. The maximumdistance between the adjacent ZigBee nodes is under 10 m, and through hopping technique of the mesh topology, reliablesensor fusion data has been performed. The ZigBee coordinator has been connected through the USBcable of the host computer, which stores the data into a databaseof computer system. The gathered sensor combination information have been sent to a web private door for remote monitoring and controlling The smart power metering circuit is connectedto mains 230 V/50 Hz supply. Fig. 2 shows different appliancesconnected to the developed smart sensing systemwell as for the safety of the electroniccircuit 𝐼 𝑎𝑐𝑡=𝑚2*𝑣 𝑚𝑒𝑎𝑠𝑢𝑟𝑒𝑑_𝑣𝑜𝑙𝑡𝑎𝑔𝑒_𝑓𝑜𝑟_𝑐𝑢𝑟𝑟𝑒𝑛𝑡(2) where𝑚2 is the scaling factor obtained from Fig. 5, different values ofm2 to be used for different current transformers. 𝐼 𝑎𝑐𝑡 is the actual current; 𝑉 𝑚𝑒𝑎𝑠𝑢𝑟𝑒𝑑_𝑣𝑜𝑙𝑡𝑎𝑔𝑒_𝑓𝑜𝑟_𝑐𝑢𝑟𝑟𝑒𝑛𝑡 is the measured sensing voltage for current. The created framework incorporates two current transformers; one is used for the measurements of loads up to 100Wand the other current transformer is used for the measurements of loads ISBN-13: 978-1539045540 www.iirdem.org Proceedings of ICEEM-2016-Chennai ©IIRDEM 201630
- 3. from 100 to 2000 W. The reason of providing two transformers is to provide two load outlets at the same sensing node. The quantity of turns is increased up to five turns to improve the resolutionof the low current signal. Both yields from the present transformers are fed to the analog input channels of ZigBee. 3) Power Measurement: In request to ascertain force of a solitary stage air conditioning circuit, the result of root mean square (RMS) voltage and RMS current must be increased by the force variable as given in (3). Power component is the cosine of the stage point of voltage and current waveforms as shown in the Fig. 6 for anideal situation 𝑃𝑎𝑐𝑡= 𝑉𝑟𝑚𝑠× 𝐼𝑟𝑚𝑠× 𝑃𝑓(3) Where Pact is the actual power, 𝑉𝑟𝑚𝑠and 𝐼𝑟𝑚𝑠 the RMSvalues of voltage and current, respectively, and 𝑃𝑓is the power factor. The yield sign of the present transformer completely depends on the nature of the connected appliances whether theconnected load is purely resistive, capacitive, or inductive. Inmost of the domestic appliances, the output waveforms are notpure sinusoidal as shown in the following graphs Fig. 7(a)–(d)for different loading conditions. he power consumedby the appliances is calculated in the computer systemafter receiving voltage outputs from corresponding current andvoltage sensors by the following equation: 𝑃𝑐𝑎𝑙= 𝑉𝑎𝑐𝑡× 𝐼 𝑎𝑐𝑡× 𝐶𝑓 where𝑃𝑐𝑎𝑙 is the calculated power; 𝑉𝑎𝑐𝑡 the yield voltage as given in (1); 𝐼 𝑎𝑐𝑡the current value as given in (2); and 𝐶𝑓is thecorrection factor.From the low percentage error of power, it has been decided that power can be calculated without considering power factor. B. Control of Home Appliances The current paper is novel in terms of other reported literaturedue to its control features. Smart Power Metering System integrated With Traic. For switching on/off of the electrical appliances, we have used atriac-BT138 This enables the consumer for flexibility incontrolling the devices: The users (inhabitants) have the optionsof switching the device on/off in three different ways. Thus, the client has the adaptability in controlling the electrical appliances through the developed prototype. Monitoring consumption of power of the appliances, data are collected by a smart coordinator, which saves all data in the system for processing and in addition for future use. The prepared voltage, current, and force qualities are displayed on the graphical UI running on a computer. The handled information are precise and user friendly. The sensing system in the sensor hub measures the parameters (voltage and current). V. CONCLUSION AND FUTURE WORK A savvy power observing and control framework has been designed and developed toward the usage of an intelligent building. The created framework viably screens and controls the electrical apparatus utilizations at an elderly home.Thus, the real-time monitoring of the electrical appliances canbe viewed through a website. The framework can be extended for monitoring the whole intelligent building. We aim to determinethe areas of daily peak hours of electricity usage levels and comewith a solution by which we can lower the consumption andenhance better utilization of already limited resources during peak hours. The sensor systems are customized with different client interfaces suitable for clients of shifting capacity and for master users such that the framework can be maintained easily and interactedwith very simply. This concentrate additionally intends to assess consumer’s response toward perceptions of smart grid technologies, their advantages and disadvantages, possible concerns, and overall perceived utility. The created framework is hearty and adaptable in operation. Forthe last three months, the system was able to perform the remote monitoring and control of appliances effectively. Local and remote user interfaces are anything but difficult to handle by a learner consumer and are efficient in handling the operations. In future, the system will be integrated with co-systems like smart home inhabitant behavior recognitions systems ISBN-13: 978-1539045540 www.iirdem.org Proceedings of ICEEM-2016-Chennai ©IIRDEM 201631
- 4. todetermine the wellness of the inhabitant in terms of energy consumption. REFERENCES [1] X. P. Liu, W. Gueaieb, S. C. Mukhopadhyay, W. Warwick, and Z. Yin, "Visitor publication prologue to the engaged area on remote mechatronics," IEEE/ASME Trans. Mechatronics, vol. 17, no. 3, pp. 397–403, Jun. 2012. [2] D. S. Ghataoura, J. E. Mitchell, and G. E.Matich, "Systems administration and application interface innovation for remote sensor system observation and checking," IEEE Commun. Mag., vol. 49, no. 10, pp. 90–97, Oct. 2011. [3] P. Cheong, K.- F.Chang, Y.- H.Lai, S.- K. Ho, I.- K. Sou, and K.- W. Tam, "A zigbee-based remote sensor system hub for bright identification of fire," IEEE Trans. Ind. Electron., vol. 58, no. 11, pp. 5271–5277, Nov. 2011. [4] J. Misic and V. B. Misic, "Span execution in a multitier remote system for social insurance observing," IEEE Wireless Commun., vol. 17, no. 1, pp. 90–95, Feb. 2010. [5] M. Erol-Kantarci and H. T. Mouftah, "Remote sensor systems for costefficient private vitality administration in the keen network," IEEE Trans.Smart Grid, vol. 2, no. 2, pp. 314–325, Jun. 2011. [6] ZigBee organization together looking at Japan's new keen home suggestions (got to on 8 Aug., 2012). [Online]. Accessible: http://www.smartmeters.com/the-news/3449- zigbee-collusion [7] The expenses and advantages of keen meters for private clients (got to on 4Apr. 2012). [Online].Available: ttp://www.edisonfoundation. net/iee/Documents/IEE_BenefitsofSmartMeters _Final.pdf [8] L. Li, H. Xiaoguang, H. Jian, and H. Ketai, "Configuration of new engineering of AMR framework in Smart Grid," in Proc. sixth IEEE Conf. Ind. Electron.Appl., 2011, pp. 2025–2029. [9] E. Andrey and J. Morelli, "Configuration of a savvy meter techno-monetary model for electric utilities in Ontario," in Proc. IEEE-Electric PowerEnergy Conf., 2010, pp. 1–7. [10] D. Man Han and J. Hyun Lim, "Shrewd home vitality administration framework utilizing IEEE 802.15.4 and zigbee," IEEE Trans. Buyer Electron., vol. 56, no. 3, pp. 1403–1410, Aug. 2010. [11] V. N. Kamat, "Empowering an electrical insurgency utilizing savvy evident vitality meters and taxes," in Proc. Annu. IEEE India Conf., 2011, pp. 1–4. [12] F. Benzi, N. Anglani, E. Bassi, and L. Frosini, "Power shrewd meters interfacing the family units," IEEE Trans. Ind. Electron., vol. 58, no. 10, pp. 4487–4494, Oct. 2011. [13] I. Kunold, M. Kuller, J. Bauer, and N. Karaoglan, "A framework idea of a vitality data framework in pads utilizing remote advances and savvy metering gadgets," in Proc. IEEE sixth Int. Conf. Intell. Information AcquisitionAdv. Comput. Syst., 2011, pp. 812–816. [14] Triacs-BT 138 Series, Philips Semiconductors (got to on 8 Jan. 2012). [Online]. Accessible: http://docs- asia.electrocomponents.com/webdocs/ 0b4b/0900766b80b4bf38.pdf [15] J. Han, C. S. Choi, and I. Lee, "More productive home vitality administration framework in view of zigbee correspondence and infrared remote controls," IEEE Trans. Customer Electron., vol. 57, no. 1, pp. 85–89, Feb. 2011. [16] K. Gill, S. H. Yang, F. Yao, and X. Lu, "A zigbee-based home computerization framework," IEEE Trans. Buyer Electron., vol. 55, no. 2, pp. 422–430, May 2009. [17] M. S. Skillet, L. W. Yeh, Y. A. Chen, Y. H. Lin, and Y. C. Tseng, "A WSNbased astute light control framework considering client exercises and profiles," IEEE Sensors J., vol. 8, no. 10, pp. 1710–1721, Oct. 2008. [18] G. Tune, Z. Wei, W. Zhang, and A. Melody, "A half and half sensor system framework for home observing applications," IEEE Trans. Buyer Electron., vol. 53, no. 4, pp. 1434–1439, Nov. 2007. [19] C. Suh and Y. B. Ko, "Outline and execution of astute home control frameworks taking into account dynamic sensor systems," IEEE Trans. ConsumerElectron., vol. 54, no. 3, pp. 1177– 1184, Aug. 2008. [20] K. D. Nguyen, I. M. Chen, Z. Luo, S. H. Yeo, and H. B. L. Duh, "A wearable detecting framework for following and observing of useful arm development," IEEE/ASME Trans. ISBN-13: 978-1539045540 www.iirdem.org Proceedings of ICEEM-2016-Chennai ©IIRDEM 201632
- 5. Mechatronics, vol. 16, no. 2, pp. 213– 220, Apr. 2011. Authors profile: Shaik Nagulmeera Nurjahan is currently PG scholar of embedded systems in Audisankara College of Engineering and Technology (Autonomous) M Kezia Aruna Jyothi, M.tech., working as Associate Professor in Department of ECE at Audisankara College of Engineering and Technology, (Autonomous) M tech passed in 2006, having 10 years of experience. ISBN-13: 978-1539045540 www.iirdem.org Proceedings of ICEEM-2016-Chennai ©IIRDEM 201633