Efficient and Cost-effective Drone – NDVI system for Precision Farming

Harsh, Shethia; Singh, Dhiraj K.; Pathak, Shraddha

doi:10.17762/ijnpme.v10i04.126

Cited by 4 publications

(3 citation statements)

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“…Moreover, human intervention, including drone take off and landing, data calibration, and verification, could also affect the autonomy of the technology [59]. Additionally, issues such as battery capacity, high cost, and insufficient computing power due to large data samples should also be fully considered in future research [60,61]. Future validation could be made via underwater monitoring based on camera systems on underwater vehicles, autonomous underwater vehicles (AUVs), or remotely operated underwater vehicles (ROV), and snorkeling [12,58].…”

Section: Validationmentioning

confidence: 99%

Construction of an Orthophoto-Draped 3D Model and Classification of Intertidal Habitats Using UAV Imagery in the Galapagos Archipelago

Cock

Vandeputte

Bruneel

et al. 2023

Drones

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Worldwide, an increasing number of marine islands suffer from various pressures on the environment, driven by climate change and increasing land demands. The Galapagos Archipelago is one of the most iconic group of islands, yet population growth and tourism have resulted in a rising need for efficient environmental monitoring of its fragile ecosystems, such as the intertidal zone which harbors diverse and unique fauna. The purpose of this study was to investigate the image classification opportunities for these intertidal habitats using Uncrewed Aerial Vehicle (UAV) imagery. The data for this research were collected in Puerto Ayora on Santa Cruz in August 2017, the most urbanized island of the Galapagos. An orthophoto, a digital elevation model (DEM), and an orthophoto-draped 3D model of the intertidal zone were obtained using image registration software. Based on the orthophoto, an initial classification of the intertidal zone was performed using the spectral angle mapper algorithm. A habitat map with four classes (water, sand, rock, and vegetation) was created with an overall classification accuracy of 77%, indicating the suitability of UAV high resolution aerial imagery for the classification of intertidal habitats. The developed method could be applied to map and monitor other coastal regions and islands systems.

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Section: Validationmentioning

confidence: 99%

Construction of an Orthophoto-Draped 3D Model and Classification of Intertidal Habitats Using UAV Imagery in the Galapagos Archipelago

Cock

Vandeputte

Bruneel

et al. 2023

Drones

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show abstract

“…A core farming process is the calculation of a Normalized Difference Vegetation Index (NDVI) which may be carried out by a fleet of autonomous UAVs synchronizing in flight over different zones and taking a sequence of high-resolution pictures to evaluate the health of trees and leaves [34][35][36]. The NDVI verifies and quantifies the presence of live green vegetation using a reflected light in the visible and near-infrared bands.…”

Section: Rssi = (P T + Hmentioning

confidence: 99%

Deployment of an autonomous fleet of UAVs for Assessing the NDVI of Regenerative Farming

Almalki,

Angelides

2023

2023 International Conference on Intelligent Computing, Communication, Networking and Services (ICCNS)

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F aris A. Al m al ki 1, M ari os C. A n g eli d es 2 1 D e p art m e nt of C o m p ut er E n gi n e eri n g, C oll e g e of C o m p ut ers a n d I nf or m ati o n T e c h n ol o g y , T aif U ni v ersit y , T aif, S a u di Ar a bi a E m ail: m.f aris @t u. e d u.s a 2 Br u n el D esi g n S c h o ol, C oll e g e of E n gi n e eri n g, D esi g n a n d P h ysi c al S ci e n c es , Br u n el U ni v ersit y L o n d o n , U x bri d g e, U nit e d Ki n g d o m E m ail: m ari os. a n g eli d es @ br u n el. a c. u k

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“…However, the effectiveness of several deep learning-based systems is constrained by time complexity. [25] In this paper, we explore the capabilities and limitations of deep neural networks in detecting network intrusions. We present a comprehensive analysis of various DNN architectures, training methodologies, and evaluation metrics used in the field of intrusion detection.…”

Section: Introductionmentioning

confidence: 99%

Deep Neural Network Solution for Detecting Intrusion in Network

Khan,

Singh

2023

IJRITCC

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In our experiment, we found that deep learning surpassed machine learning when utilizing the DSSTE algorithm to sample imbalanced training set samples. These methods excel in terms of throughput due to their complex structure and ability to autonomously acquire relevant features from a dataset. The current study focuses on employing deep learning techniques such as RNN and Deep-NN, as well as algorithm design, to aid network IDS designers. Since public datasets already preprocess the data features, deep learning is unable to leverage its automatic feature extraction capability, limiting its ability to learn from preprocessed features. To harness the advantages of deep learning in feature extraction, mitigate the impact of imbalanced data, and enhance classification accuracy, our approach involves directly applying the deep learning model for feature extraction and model training on the existing network traffic data. By doing so, we aim to capitalize on deep learning's benefits, improving feature extraction, reducing the influence of imbalanced data, and enhancing classification accuracy.

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Efficient and Cost-effective Drone – NDVI system for Precision Farming

Cited by 4 publications

References 0 publications

Construction of an Orthophoto-Draped 3D Model and Classification of Intertidal Habitats Using UAV Imagery in the Galapagos Archipelago

Construction of an Orthophoto-Draped 3D Model and Classification of Intertidal Habitats Using UAV Imagery in the Galapagos Archipelago

Deployment of an autonomous fleet of UAVs for Assessing the NDVI of Regenerative Farming

Deep Neural Network Solution for Detecting Intrusion in Network

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