Published August 19, 2015 | Version v1
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SEMI-BLIND SOURCE SEPARATION FOR ESTIMATION OF CLAY CONTENT OVER SEMI-VEGETATED AREAS, FROM VNIR/SWIR HYPERSPECTRAL AIRBORNE DATA

Creators

  • 1. Institut Agro Montpellier
  • 2. Institut de Recherche pour le Développement

Description

Abstract. The applicability of Visible, Near-Infrared and Short Wave Infrared (VNIR/SWIR) hyperspectral imagery for soil property mapping decreases when surfaces are partially covered by vegetation. The objective of this research was to develop and evaluate a methodology based on the "double-extraction" technique, for clay content estimation over semi-vegetated surfaces using VNIR/SWIR hyperspectral airborne data. The "double-extraction" technique initially proposed by Ouerghemmi et al. (2011) consists of 1) an extraction of a soil reflectance spectrum ssoil from semi-vegetated spectra using a Blind Source Separation technique, and 2) an extraction of clay content from the soil reflectance spectrum ssoil, using a multivariate regression method. In this paper, the Source Separation approach is Semi-Blind thanks to the integration of field knowledge in Source Separation model. And the multivariate regression method is a partial least squares regression (PLSR) model. This study employed VNIR/SWIR HyMap airborne data acquired in a French Mediterranean region over an area of 24 km2. Our results showed that our methodology based on the "double-extraction" technique is accurate for clay content estimation when applied to pixels under a specific Cellulose Absorption Index threshold. Finally the clay content can be estimated over around 70% of the semi-vegetated pixels of our study area, which may offer an extension of soil properties mapping, at the moment restricted to bare soils.

⚠️ This is an automatic machine translation with an accuracy of 90-95%

Translated Description (Arabic)

الملخص. تتناقص قابلية تطبيق الصور الطيفية الفائقة المرئية والأشعة تحت الحمراء القريبة من الأشعة تحت الحمراء والأشعة تحت الحمراء القصيرة (VNIR/SWIR) لرسم خرائط خصائص التربة عندما تكون الأسطح مغطاة جزئيًا بالغطاء النباتي. كان الهدف من هذا البحث هو تطوير وتقييم منهجية تعتمد على تقنية "الاستخراج المزدوج"، لتقدير محتوى الطين على الأسطح شبه النباتية باستخدام بيانات VNIR/SWIR فائقة الطيف المحمولة جواً. تتكون تقنية "الاستخراج المزدوج" التي اقترحها في البداية ويرجيمي وآخرون. (2011) من 1) استخراج التربة من طيف انعكاس التربة من الأطياف شبه النباتية باستخدام تقنية فصل المصدر الأعمى، و 2) استخراج محتوى الطين من التربة من طيف انعكاس التربة، باستخدام طريقة الانحدار متعددة المتغيرات. في هذه الورقة، يكون نهج فصل المصدر شبه أعمى بفضل دمج المعرفة الميدانية في نموذج فصل المصدر. وطريقة الانحدار متعددة المتغيرات هي نموذج انحدار المربعات الصغرى الجزئي (PLSR). استخدمت هذه الدراسة بيانات VNIR/SWIR HyMap المحمولة جواً والتي تم الحصول عليها في منطقة فرنسية متوسطية على مساحة 24 كم 2. أظهرت نتائجنا أن منهجيتنا القائمة على تقنية "الاستخراج المزدوج" دقيقة لتقدير محتوى الطين عند تطبيقها على وحدات البكسل تحت حد معين لمؤشر امتصاص السليلوز. أخيرًا، يمكن تقدير محتوى الطين بأكثر من 70 ٪ من وحدات البكسل شبه النباتية في منطقة دراستنا، والتي قد توفر امتدادًا لرسم خرائط خصائص التربة، والتي تقتصر حاليًا على التربة العارية.

Translated Description (English)

Abstract. The applicability of Visible, Near-Infrared and Short Wave Infrared (VNIR/SWIR) hyperspectral imagery for soil property mapping decreases when surfaces are partially covered by vegetation. The objective of this research was to develop and evaluate a methodology based on the "double-extraction" technique, for clay content estimation over semi-vegetated surfaces using VNIR/SWIR hyperspectral airborne data. The "double-extraction" technique initially proposed by Ouerghemmi et al. (2011) consists of 1) an extraction of a soil reflectance spectrum ssoil from semi-vegetated spectra using a Blind Source Separation technique, and 2) an extraction of clay content from the soil reflectance spectrum ssoil, using a multivariate regression method. In this paper, the Source Separation approach is Semi-Blind thanks to the integration of field knowledge in Source Separation model. And the multivariate regression method is a partial least squares regression (PLSR) model. This study employed VNIR/SWIR HyMap airborne data acquired in a French Mediterranean region over an area of 24 km2. Our results showed that our methodology based on the "double-extraction" technique is accurate for clay content estimation when applied to pixels under a specific Cellulose Absorption Index threshold. Finally, the clay content can be estimated over around 70% of the semi-vegetated pixels of our study area, which may offer an extension of soil properties mapping, at the moment restricted to bare soils.

Translated Description (French)

Abstract. The applicability of Visible, Near-Infrared and Short Wave Infrared (VNIR/SWIR) hyperspectral imagery for soil property mapping decreases when surfaces are partially covered by vegetation. The objective of this research was to develop and evaluate a methodology based on the "double-extraction" technique, for clay content estimation over semi-vegetated surfaces using VNIR/SWIR hyperspectral airborne data. The « double-extraction » technique initially proposed by Ouerghemmi et al. (2011) consists of 1) an extraction of a soil reflectance spectrum ssoil from semi-vegetated spectra using a Blind Source Separation technique, and 2) an extraction of clay content from the soil reflectance spectrum ssoil, using a multivariate regression method. Dans ce document, l'approche de séparation des sources est semi-blindée grâce à l'intégration des connaissances sur le terrain dans le modèle de séparation des sources. And the multivariate regression method is a partial least squares regression (PLSR) model. Cette étude a employé VNIR/SWIR HyMap airborne data acquired in a French Mediterranean region over an area of 24 km2. Our results showed that our methodology based on the "double-extraction" technique is accurate for clay content estimation when applied to pixels under a specific cellulose Absorption Index threshold. Finalement, le contenu de l'argile peut être estimé à environ 70 % des pixels semi-végétalisés de notre zone d'étude, ce qui peut offrir une extension de la cartographie des propriétés du sol, au moment restreint aux sols nus.

Translated Description (Spanish)

Abstract. The applicability of Visible, Near-Infrared and Short Wave Infrared (VNIR/SWIR) hyperspectral imagery for soil property mapping decreases when surfaces are partially covered by vegetation. The objective of this research was to develop and evaluate a methodology based on the «double-extraction» technique, for clay content estimation over semi-vegetated surfaces using VNIR/SWIR hyperspectral airborne data. The «double-extraction» technique initially proposed by Ouerghemmi et al. (2011) consists of 1) an extraction of a soil reflectance spectrum ssoil from semi-vegetated spectra using a Blind Source Separation technique, and 2) an extraction of clay content from the soil reflectance spectrum ssoil, using a multivariate regresion method. In this paper, the Source Separation approach is Semi-Blind thanks to the integration of field knowledge in Source Separation model. Y el método de regresión multivariante es un modelo de regresión de mínimos cuadrados parciales (PLSR). This study employed VNIR/SWIR HyMap airborne data acquired in a French Mediterranean region over an area of 24 km2. Our results showed that our methodology based on the «double-extraction» technique is accurate for clay content estimation when applied to pixels under a specific Cellulose Absorption Index threshold. Finally the clay content can be estimated over around 70% of the semi-vegetated pixels of our study area, which may offer an extension of soil properties mapping, at the moment restricted to bare soils.

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Additional details

Additional titles

Translated title (Arabic)
فصل المصدر SEMI - BLIND لتقدير محتوى الطين على المناطق SEMI - VEGETATED، من VNIR/SWIR البيانات المحمولة جواً فائق الطيف
Translated title (English)
SEMI-BLIND SOURCE SEPARATION FOR ESTIMATION OF CLAY CONTENT OVER SEMI-VEGETATED AREAS, FROM VNIR/SWIR HYPERSPECTRAL AIRBORNE DATA
Translated title (French)
SEMI-BLIND SOURCE SEPARATION FOR ESTIMATION OF CLAY CONTENT OVER SEMI-VEGETATED AREAS, FROM VNIR/SWIR HYPERSPECTRAL AIRBORNE DATA
Translated title (Spanish)
SEPARACIÓN DE FUENTES SEMI-BLIND PARA LA ESTIMACIÓN DEL CONTENIDO DE ARCILLA A TRAVÉS DE ÁREAS SEMI-VEGETADAS, DE VNIR/SWIR HYPERSPECTRAL AIRBORNE DATA

Identifiers

Other
https://openalex.org/W2173708867
DOI
10.5194/isprsarchives-xl-3-w3-413-2015

Is supplement to
https://openalex.org/W2809209827 (Other)
https://openalex.org/W4387802641 (Other)
https://openalex.org/W2027460042 (Other)
https://openalex.org/W2045337428 (Other)
https://openalex.org/W2044082451 (Other)
https://openalex.org/W2801095402 (Other)
https://openalex.org/W2947652761 (Other)
https://openalex.org/W2038817326 (Other)
https://openalex.org/W1985931804 (Other)
https://openalex.org/W2834783259 (Other)

GreSIS Basics Section

Is Global South Knowledge
Yes
Country
Tunisia

References

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