Weed Detection Using Deep Learning: A Systematic Literature Review

Murad, Nafeesa Yousuf; Mahmood, Tariq; Forkan, Abdur Rahim Mohammad; Morshed, Ahsan; Jayaraman, Prem Prakash; Siddiqui, Muhammad Shoaib

doi:10.3390/s23073670

Cited by 27 publications

(6 citation statements)

References 103 publications

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“…As a consequence, there is an increase in the challenges and time taken to produce detailed precision weed maps (Zou et al 2021). To attend to some of these issues, it has been suggested that the use of specialized models or machine learning techniques can provide further enhancement and detection efficiency (Murad et al 2023). In this respect, a range of techniques have been developed to assist in this area, with some examples including the use of (1) artificial intelligence-based image analysis (Aitkenhead et al 2003; Haq et al 2023); (2) deep learning systems and algorithms (such as artificial neutral networks, convolutional neutral networks, deep neutral networks) (Hasan et al 2021; Murad et al 2023); (3) image processing techniques (including clustering, generative adversarial networks, Hilbert transformation, histograms of gradients, linear iterative, local binary patterns) (Murad et al 2023; Nixon and Aguado 2019); and (4) machine learning systems and algorithms (such as adaptive boosting, artificial neutral networks, decision trees, k-nearest neighbor, and support vector machines) (Murad et al 2023).…”

Section: Weed Detection Methodsmentioning

confidence: 99%

Advancements and developments in the detection and control of invasive weeds: a global review of the current challenges and future opportunities

Roberts,

Florentine

2024

Weed Sci

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Weed invasion has become increasingly recognised as a major threat to the practice of sustainable agriculture and the maintenance of natural ecosystems around the world. Without effective and ongoing management strategies, many weed species have the aggressive capacity to alter ecosystem functions and reduce the economic potential of the land in which they have been introduced. Although traditional weed management strategies can be useful in eliminating certain weeds, these approaches can be costly, economically damaging, laborious and result in variable long-term success. To further add to these challenges, several weed species have now developed resistance to a range of herbicide modes of action, which, to date, have been the major mechanism of weed control. As a result, it is anticipated that the use of emerging technology will help to provide a solution for the economical and environmentally sustainable management of various weeds. Of particular interest, emerging technology in the areas of weed detection and control (chemical, mechanical, electrical, laser and thermal), have all shown promising signs of improving long-term weed management strategies. These methods can also be assisted with, or integrated alongside, other technology such as artificial intelligence or computer vision techniques for improved efficiency. To provide an overview of this topic, this review evaluates a range of emerging technology used for the detection and control of various weeds and explores the challenges and opportunities of their application within the field.

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Section: Weed Detection Methodsmentioning

confidence: 99%

Advancements and developments in the detection and control of invasive weeds: a global review of the current challenges and future opportunities

Roberts,

Florentine

2024

Weed Sci

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“…The researchers have employed the Literature Review writing guidance utilized by (Murad et al, 2023). Three processes, as proposed by , were implemented to ensure the alignment of the acquired and assessed data with the study questions.…”

Section: Methodsmentioning

confidence: 99%

Exploring Innovations and Challenges in The Study of Hadith in The Digital Era

Abdul Majid,

@Shahar

et al. 2024

IJARBSS

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This literature review aims to highlight the importance of exploring innovations and challenges in the study of hadith in the digital era. Hadith is the second source of Islam after the Qur'an which is attributed to the Prophet Muhammad SAW in terms of words, deeds, actions and the nature of the body (physical) or spiritual). In the digital era, the study of Hadith has undergone both innovations and challenges. The integration of technology has revolutionized the way Hadith is taught, learned, and disseminated. However, alongside these innovations, some challenges need to be addressed to ensure the authenticity and proper understanding of Hadith in this digital age. The method of this review begins with the evaluation processes involved doing a systematic search, followed by ethically assessing and determining the suitability of articles on hadith study. This review was also done by reviewing and combining information from 119 articles that were analysed from several electronic databases such as Scopus, ScienceDirect, and ERIC. In the final process, there were 32 papers successfully selected and recorded in a 5-year period, from mid-2019 until early 2024 to answer the research questions. The analysis findings indicate that several articles examining the digital platforms of hadith study, multimedia learning, global connectivity, electronic publications, and references tools. Furthermore, there are several challenges in implementing educational hadith such as proliferation of inauthentic Hadiths, misinterpretation and misuse, and security concerns. This study demonstrates the major findings is the integration of Hadith with technology addresses ethical discrepancies and moral issues emerging in cyberspace. It also demonstrates that the digital era has brought both innovation and challenges to the study of Hadith. Embracing technological advancements while addressing associated challenges is essential for fostering a robust, authentic, and globally connected Hadith

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“…Deep Neural Networks (DNNs) extend the complexity, number of connections and hidden layers of Artificial Neural Networks (ANNs). A convolutional neural network (CNN), a type of DNN, assigns learnable weights and biases to different aspects and objects within input images to distinguish and classify objects, such as weeds [1]. Unlike traditional machine learning algorithms that require manual feature selection and classifier choice, deep learning algorithms automatically extract features through self-learning from errors.…”

Section: Learning Algorithmmentioning

confidence: 99%

“…Unlike traditional machine learning algorithms that require manual feature selection and classifier choice, deep learning algorithms automatically extract features through self-learning from errors. This automatic feature extraction sets deep learning apart from the broader field of machine learning [1,92,93]. To train and evaluate a deep CNN model, each input image undergoes a sequence of convolution layers with filters, followed by flattening, pooling layers and fully connected layers.…”

Section: Learning Algorithmmentioning

confidence: 99%

“…The result of competition for resources is reduced crop yields. Yield losses depend on factors, such as weed species, population density and relative time of emergence and distribution, as well as on the soil type, soil moisture levels, pH and fertility [1,2]. For decades, researchers and farmers have struggled to control weeds to overcome the thorny challenges they pose.…”

Section: Introductionmentioning

confidence: 99%

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Deep Learning-Based Weed–Crop Recognition for Smart Agricultural Equipment: A Review

Qu,

2024

Agronomy

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Weeds and crops engage in a relentless battle for the same resources, leading to potential reductions in crop yields and increased agricultural costs. Traditional methods of weed control, such as heavy herbicide use, come with the drawback of promoting weed resistance and environmental pollution. As the demand for pollution-free and organic agricultural products rises, there is a pressing need for innovative solutions. The emergence of smart agricultural equipment, including intelligent robots, unmanned aerial vehicles and satellite technology, proves to be pivotal in addressing weed-related challenges. The effectiveness of smart agricultural equipment, however, hinges on accurate detection, a task influenced by various factors, like growth stages, environmental conditions and shading. To achieve precise crop identification, it is essential to employ suitable sensors and optimized algorithms. Deep learning plays a crucial role in enhancing weed recognition accuracy. This advancement enables targeted actions such as minimal pesticide spraying or precise laser excision of weeds, effectively reducing the overall cost of agricultural production. This paper provides a thorough overview of the application of deep learning for crop and weed recognition in smart agricultural equipment. Starting with an overview of intelligent agricultural tools, sensors and identification algorithms, the discussion delves into instructive examples, showcasing the technology’s prowess in distinguishing between weeds and crops. The narrative highlights recent breakthroughs in automated technologies for precision plant identification while acknowledging existing challenges and proposing prospects. By marrying cutting-edge technology with sustainable agricultural practices, the adoption of intelligent equipment presents a promising path toward efficient and eco-friendly weed management in modern agriculture.

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Weed Detection Using Deep Learning: A Systematic Literature Review

Cited by 27 publications

References 103 publications

Advancements and developments in the detection and control of invasive weeds: a global review of the current challenges and future opportunities

Advancements and developments in the detection and control of invasive weeds: a global review of the current challenges and future opportunities

Exploring Innovations and Challenges in The Study of Hadith in The Digital Era

Deep Learning-Based Weed–Crop Recognition for Smart Agricultural Equipment: A Review

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