Related papers: An Efficient and Small Convolutional Neural Network for Pest Recognition -- ExquisiteNet

An Efficient and Small Convolutional Neural Network for Pest Recognition -- ExquisiteNet

URL: http://arxiv.org/abs/2107.07167v1
Date: Thu, 15 Jul 2021 07:34:45 GMT
Title: An Efficient and Small Convolutional Neural Network for Pest Recognition -- ExquisiteNet
Authors: Shi-Yao Zhou and Chung-Yen Su
Abstract summary: In this paper, we propose a small and efficient model called ExquisiteNet to recognize pests. Our model achieves higher accuracy, that is, 52.32% on the test set of IP102 without any data augmentation.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Nowadays, due to the rapid population expansion, food shortage has become a critical issue. In order to stabilizing the food source production, preventing crops from being attacked by pests is very important. In generally, farmers use pesticides to kill pests, however, improperly using pesticides will also kill some insects which is beneficial to crops, such as bees. If the number of bees is too few, the supplement of food in the world will be in short. Besides, excessive pesticides will seriously pollute the environment. Accordingly, farmers need a machine which can automatically recognize the pests. Recently, deep learning is popular because its effectiveness in the field of image classification. In this paper, we propose a small and efficient model called ExquisiteNet to complete the task of recognizing the pests and we expect to apply our model on mobile devices. ExquisiteNet mainly consists of two blocks. One is double fusion with squeeze-and-excitation-bottleneck block (DFSEB block), and the other is max feature expansion block (ME block). ExquisiteNet only has 0.98M parameters and its computing speed is very fast almost the same as SqueezeNet. In order to evaluate our model's performance, we test our model on a benchmark pest dataset called IP102. Compared to many state-of-the-art models, such as ResNet101, ShuffleNetV2, MobileNetV3-large and EfficientNet etc., our model achieves higher accuracy, that is, 52.32% on the test set of IP102 without any data augmentation.

Related papers

Context-Aware Pesticide Recommendation via Few-Shot Pest Recognition for Precision Agriculture [1.2744523252873352]
This study presents a lightweight framework for pest detection and pesticide recommendation, designed for low-resource devices such as smartphones and drones.<n>The proposed framework includes two main components. The first is a Pest Detection Module that uses a compact, lightweight convolutional neural network (CNN) combined with meta-learning to accurately identify pests.<n>The second is a Pesticide Recommendation Module that incorporates environmental factors like crop type and growth stage to suggest safe and eco-friendly pesticide recommendations.
arXiv Detail & Related papers (2026-01-01T07:33:09Z)
Poisoning Attacks on LLMs Require a Near-constant Number of Poison Samples [81.67041843907371]
This work demonstrates for the first time that poisoning attacks require a near-constant number of documents regardless of dataset size.<n>We find that 250 poisoned documents similarly compromise models across all model and dataset sizes.<n>Our results suggest that injecting backdoors through data poisoning may be easier for large models than previously believed.
arXiv Detail & Related papers (2025-10-08T16:25:05Z)
Training on the Fly: On-device Self-supervised Learning aboard Nano-drones within 20 mW [52.280742520586756]
Miniaturized cyber-physical systems (CPSes) powered by tiny machine learning (TinyML), such as nano-drones, are becoming an increasingly attractive technology. Simple electronics make these CPSes inexpensive, but strongly limit the computational, memory, and sensing resources available on board. We present a novel on-device fine-tuning approach that relies only on the limited ultra-low power resources available aboard nano-drones.
arXiv Detail & Related papers (2024-08-06T13:11:36Z)
Advancing Green AI: Efficient and Accurate Lightweight CNNs for Rice Leaf Disease Identification [0.0]
Rice plays a vital role as a primary food source for over half of the world's population. In this study, we explore three mobile-compatible CNN architectures for rice leaf disease classification. The best performance was achieved by the EfficientNet-B0 model with an accuracy of 99.8%.
arXiv Detail & Related papers (2024-08-03T11:16:00Z)
Unleashing the Power of Transfer Learning Model for Sophisticated Insect Detection: Revolutionizing Insect Classification [0.520707246175575]
This study uses different models like MobileNetV2, ResNet152V2, Xecption, Custom CNN. A Convolutional Neural Network (CNN) based on the ResNet152V2 architecture is constructed and evaluated in this work. The results highlight its potential for real-world applications in insect classification and entomology studies.
arXiv Detail & Related papers (2024-06-11T20:52:42Z)
A Deep Learning-based Pest Insect Monitoring System for Ultra-low Power Pocket-sized Drones [1.7945764007196348]
Smart farming and precision agriculture represent game-changer technologies for efficient and sustainable agribusiness. Miniaturized palm-sized drones can act as flexible smart sensors inspecting crops, looking for early signs of potential pest outbreaking. This work presents a novel vertically integrated solution featuring two ultra-low power System-on-Chips.
arXiv Detail & Related papers (2024-04-02T10:39:54Z)
HarvestNet: A Dataset for Detecting Smallholder Farming Activity Using Harvest Piles and Remote Sensing [50.4506590177605]
HarvestNet is a dataset for mapping the presence of farms in the Ethiopian regions of Tigray and Amhara during 2020-2023. We introduce a new approach based on the detection of harvest piles characteristic of many smallholder systems. We conclude that remote sensing of harvest piles can contribute to more timely and accurate cropland assessments in food insecure regions.
arXiv Detail & Related papers (2023-08-23T11:03:28Z)
Plant Disease Detection using Region-Based Convolutional Neural Network [2.5091819952713057]
Agriculture plays an important role in the food and economy of Bangladesh. One of the major reasons behind low crop production is numerous bacteria, virus and fungal plant diseases. This paper aims at building a lightweight deep learning model for predicting leaf disease in tomato plants.
arXiv Detail & Related papers (2023-03-16T03:43:10Z)
Publishing Efficient On-device Models Increases Adversarial Vulnerability [58.6975494957865]
In this paper, we study the security considerations of publishing on-device variants of large-scale models. We first show that an adversary can exploit on-device models to make attacking the large models easier. We then show that the vulnerability increases as the similarity between a full-scale and its efficient model increase.
arXiv Detail & Related papers (2022-12-28T05:05:58Z)
Network Augmentation for Tiny Deep Learning [73.57192520534585]
We introduce Network Augmentation (NetAug), a new training method for improving the performance of tiny neural networks. We demonstrate the effectiveness of NetAug on image classification and object detection.
arXiv Detail & Related papers (2021-10-17T18:48:41Z)
High performing ensemble of convolutional neural networks for insect pest image detection [124.23179560022761]
Pest infestation is a major cause of crop damage and lost revenues worldwide. We generate ensembles of CNNs based on different topologies. Two new Adam algorithms for deep network optimization are proposed.
arXiv Detail & Related papers (2021-08-28T00:49:11Z)
An Efficient Insect Pest Classification Using Multiple Convolutional Neural Network Based Models [0.3222802562733786]
Insect pest classification is a difficult task because of various kinds, scales, shapes, complex backgrounds in the field, and high appearance similarity among insect species. We present different convolutional neural network-based models in this work, including attention, feature pyramid, and fine-grained models. The experimental results show that combining these convolutional neural network-based models can better perform than the state-of-the-art methods on these two datasets.
arXiv Detail & Related papers (2021-07-26T12:53:28Z)
One-Shot Learning with Triplet Loss for Vegetation Classification Tasks [45.82374977939355]
Triplet loss function is one of the options that can significantly improve the accuracy of the One-shot Learning tasks. Starting from 2015, many projects use Siamese networks and this kind of loss for face recognition and object classification.
arXiv Detail & Related papers (2020-12-14T10:44:22Z)

This list is automatically generated from the titles and abstracts of the papers in this site.