The Automatic License Plate Recognition (Alpr)

., Rinku Solanki

doi:10.15623/ijret.2013.0208055

IJRET

2013

DOI: 10.15623/ijret.2013.0208055

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The Automatic License Plate Recognition (Alpr)

Rinku Solanki .¹

Abstract: All around the world the traffic police would stop drivers on the road to check if their road tax has been renewed. Unfortunately this sometimes causes delays for the people stopped and may even slow down the general traffic. Furthermore, for the police involved a big portion of their time is wasted just doing these checks. In this work we propose a new strategy for automating the monitoring of road-tax for drivers on the road and propose to notify the ones who need to renew their road tax by a formal e-mail m… Show more

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Cited by 3 publications

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Investigation of thermal and mechanical properties of polybenzoxazine obtained in an in situ polymerization with surface‐modified montmorillonite clay

Sundaramoorthy¹,

Durairajan²,

Jeyasubramanian³

et al. 2022

Polymer Composites

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A novel class of polymeric composite was prepared using benzoxazine polymer (BXP) obtained in an in situ method followed by blending a surface‐functionalized montmorillonite (MMT) clay using 3‐aminopropyltriethoxysilane (APTES). Polymeric matrix used in this study was obtained by mixing bis phenol‐A, aniline and formaldehyde and heating at 150°C. Addition of 7.5 weight % of MMT clay functionalized with APTES formed a composite when heated with the precursors of benzoxazine polymer, forming composites (FeMMT.APTES@BXP3). The structural features of surface‐modified clay, benzoxazine polymer and their composites were confirmed through X‐ray diffraction, Fourier transform infrared, Field Emission Scanning Elecron Microscope (FESEM), Energy Dispersive X‐ray Analysis(EDAX) and elemental mapping studies. Thermal characteristics of the FeMMT.APTES@BXP3 revealed a remarkable thermal stability and retained higher solid mass (63.88%) when subjected to thermogravimetric analysis. Degradation ability of polymer and their composites was also assessed through differential thermogravimetric analysis. Promising hardness features of the polymeric composites were explored by performing Rockwell hardness (RHN) tests. The FeMMT.APTES@BXP3 specimen displayed the RHN as 79 in comparison to all other obtained composites. The composites prepared through this facile method may find remarkable applications in automobile components manufacturing and in high temperature appliances.

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Investigation of thermal and mechanical properties of polybenzoxazine obtained in an in situ polymerization with surface‐modified montmorillonite clay

Sundaramoorthy¹,

Durairajan²,

Jeyasubramanian³

et al. 2022

Polymer Composites

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A review on polymer composite with waste material as reinforcement

Dubey

Mishra

Sharma

2021

Materials Today: Proceedings

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Privacy Localism

Rubinstein¹

2018

SSRN Journal

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The Automatic License Plate Recognition (Alpr)

Cited by 3 publications

References 6 publications

Investigation of thermal and mechanical properties of polybenzoxazine obtained in an in situ polymerization with surface‐modified montmorillonite clay

Investigation of thermal and mechanical properties of polybenzoxazine obtained in an in situ polymerization with surface‐modified montmorillonite clay

A review on polymer composite with waste material as reinforcement

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