Login / Signup
Karali Patra
ORCID
Publication Activity (10 Years)
Years Active: 2007-2023
Publications (10 Years): 4
Top Topics
Multiple Sensors
Quality Prediction
Mobile Robot Navigation
Obstacle Avoidance
Top Venues
IEEE Trans. Instrum. Meas.
Sensors
AIR
Int. J. Comput. Vis. Robotics
</>
Publications
</>
Akshay Saxena
,
Partha Sarathi Mallick
,
Karali Patra
Fabrication and characterization of wearable sensing system using mechanical micromachining process.
AIR
(2023)
Anup Sankar Sadangi
,
Ajeet Kumar
,
Karali Patra
Analysis of Stretch-Dependent Capacitance and Its Effects on Energy Conversion of a Donut-Shaped Dielectric Elastomer Generator.
IEEE Trans. Instrum. Meas.
71 (2022)
Anup Sankar Sadangi
,
Sujit Kumar Sahu
,
Karali Patra
A Controlled Conditioning Interface Unit for Dielectric Elastomer Generator.
IEEE Trans. Instrum. Meas.
69 (8) (2020)
Jitesh Ranjan
,
Karali Patra
,
Tibor Szalay
,
Mozammel Mia
,
Munish Kumar Gupta
,
Qinghua Song
,
Grzegorz Królczyk
,
Roman Chudy
,
Vladislav Alievich Pashnyov
,
Danil Yurievich Pimenov
Artificial Intelligence-Based Hole Quality Prediction in Micro-Drilling Using Multiple Sensors.
Sensors
20 (3) (2020)
Ravi Shankar Anand
,
Karali Patra
,
Markus Steiner
Size effects in micro drilling of carbon fiber reinforced plastic composite.
Prod. Eng.
8 (3) (2014)
Prajjwal Prem Jamdagni
,
Karali Patra
Obstacle avoidance for mobile robot navigation in unknown environment using geometrical information of mobile camera images.
Int. J. Comput. Vis. Robotics
4 (1/2) (2014)
Saurabh Garg
,
Karali Patra
,
Vishal Khetrapal
,
Surjya K. Pal
,
Debabrata Chakraborty
Genetically evolved radial basis function network based prediction of drill flank wear.
Eng. Appl. Artif. Intell.
23 (7) (2010)
Saurabh Garg
,
Karali Patra
,
Surjya K. Pal
,
Debabrata Chakraborty
Effect of different basis functions on a radial basis function network in prediction of drill flank wear from motor current signals.
Soft Comput.
12 (8) (2008)
Karali Patra
,
Surjya K. Pal
,
Kingshook Bhattacharyya
Artificial neural network based prediction of drill flank wear from motor current signals.
Appl. Soft Comput.
7 (3) (2007)