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<h1> Engineering with Akira Miyawaki</h1>
<article>
<img src="https://synthmusic.s3.ca-central-1.amazonaws.com/pretalk/mapillary/slides/Slide1.jpg" />
<p>Welcome to this great talk by the Dr Bheemaiah, In this talk, which may make no sense to you unless you have education in mathematics, the author introduces funny symbols and greek that means important theorems about engineering forests. You may wonder if trees can be engineered, the answer is yes, using both old sciences of tree acupuncture and modern afforestation techniques, even primary forests can be restored and engineered, if we know the distribution of the plants. We call this multi variate regression, in this talk we use Mapillary and its panoptic image segmentation models to geo tag and describe vegetation as by size and by taxonomy so that we know how many to add and to which layer of the forest we engineer.
</p>
</article>
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<<script>>
speechSynthesis.speak(new SpeechSynthesisUtterance("Welcome to this great talk by the Dr Bheemaiah, In this talk, which may make no sense to you unless you have education in mathematics, the author introduces funny symbols and greek that means important theorems about engineering forests. You may wonder if trees can be engineered, the answer is yes, using both old sciences of tree acupuncture and modern afforestation techniques, even primary forests can be restored and engineered, if we know the distribution of the plants. We call this multi variate regression, in this talk we use Mapillary and its panoptic image segmentation models to geo tag and describe vegetation as by size and by taxonomy so that we know how many to add and to which layer of the forest we engineer."));
<</script>>
[[slide 002]]
[[Ask the expert]]
[[Back to the Introduction]] <html>
<h1> Engineering with Akira Miyawaki</h1>
<article>
<img src = "https://synthmusic.s3.ca-central-1.amazonaws.com/pretalk/mapillary/slides/Slide2.jpg" />
<p>What is a Mapillary?
Mapillary is an open-source code base for the use of GPU based Deep Learning for Semantic Segmentation of wild images.
It is a NVIDIA inception project and open source with openstreetmap integration.
The source code is at Github at: https://github.com/mapillary
Mapillary is a NVIDIA Inception partner, that has been making strides in the arrival of deep learning based auto navigation systems and the addition of A.I to automobiles, it has other applications, like environmental and conservation planning use cases, we at A.B are using mapillary to create GIS databases of plants, undergrowth and trees, for semantic segmentation to compute plant distribution regression models to plan Miyawakis, in synchrony with native forests. We intend extending the segmentation categories to ontologies of taxonomy and size and distribution computation.
</p>
</article>
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<<script>>
speechSynthesis.speak(new SpeechSynthesisUtterance("What is a Mapillary? Mapillary is an open-source code base for the use of GPU based Deep Learning for Semantic Segmentation of wild images. It is a NVIDIA inception project and open source with openstreetmap integration.The source code is at Github at the link indicated, Mapillary is a NVIDIA Inception partner, that has been making strides in the arrival of deep learning based auto navigation systems and the addition of A.I to automobiles, it has other applications, like environmental and conservation planning use cases, we at A.B are using mapillary to create GIS databases of plants, undergrowth and trees, for semantic segmentation to compute plant distribution regression models to plan Miyawakis, in synchrony with native forests. We intend extending the segmentation categories to ontologies of taxonomy and size and distribution computation."));
<</script>>
[[slide 003]]
[[Ask the expert]]
[[Back to the Introduction]] <html>
<h1> Engineering with Akira Miyawaki</h1>
<article>
<img src = "https://synthmusic.s3.ca-central-1.amazonaws.com/pretalk/mapillary/slides/Slide3.jpg" />
<p>A feature pyramid network is used for seamless scene segmentation with a feedback mechanism, this provides the feedback for triggers, for event definitions, for optimal sequencing in automated image capturing and uploading.
</p>
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<<script>>
speechSynthesis.speak(new SpeechSynthesisUtterance("A feature pyramid network is used for seamless scene segmentation with a feedback mechanism, this provides the feedback for triggers, for event definitions, for optimal sequencing in automated image capturing and uploading."));
<</script>>
[[slide 004]]
[[Ask the expert]]
[[Back to the Introduction]] <html>
<h1> Engineering with Akira Miyawaki</h1>
<article>
<img src = "https://synthmusic.s3.ca-central-1.amazonaws.com/pretalk/mapillary/slides/Slide4.jpg" />
<p>Resnet50 and FPN
Event Programming integration for ROI determination using FPN or Resnet50
Integration to Drone based photography using TrailNet from Nvidia Redtail.
FPN based data piped to event trigger Et.
Let there exist a streamInput C, -> [ C, E] on [Et]
Et = -> [C, FPN(C)]
FPN is defined in (Porzi et al) http://openaccess.thecvf.com/content_CVPR_2019/papers/Porzi_Seamless_Scene_Segmentation_CVPR_2019_paper.pdf
Details of Taxonomy construction, for GIS integration in mapillary. This uses an API for a reverse image search, for information on taxonomy , text mined from the search query.
</p>
</article>
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<<script>>
speechSynthesis.speak(new SpeechSynthesisUtterance("Resnet50 and FPN Event Programming integration for ROI determination using FPN or Resnet50. Integration to Drone based photography using TrailNet from Nvidia Redtail. FPN based data piped to event trigger Et. Let there exist a streamInput C, a mapping from C and E on Et, Let Et be equal to C and FPN of C, FPN is defined in Porzi et al, you may refer to the url above. Details of Taxonomy construction, for GIS integration in mapillary.This uses an API for a reverse image search, for information on taxonomy, text mined from the search query."));
<</script>>
[[slide 005]]
[[Ask the expert]]
[[Back to the Introduction]] <html>
<h1> Engineering with Akira Miyawaki</h1>
<article>
<img src = "https://synthmusic.s3.ca-central-1.amazonaws.com/pretalk/mapillary/slides/Slide5.jpg" />
<p>ROI Payload
Extracted region Of Interest, searched using a search API on Google and Bing for Taxonomical information, returned as a JSON payload to be integrated in the GIS.
taxonomy construction (ATC)
For Knowledge Data Structures, K = [ [v_i] ]
O mapped to (v_i = [ T ])
Taxonomy Ontology T = [Species, [Related_Species_i]]
Taxonomy Ontology T1 = [Gravitational_Nomenclature, Query]
Taxonomy Ontology T2 = [EthnoBotany(Eg Midwest druidery), Query]
Details of Taxonomy construction, for GIS integration in mapillary. This uses an API for a reverse image search, for information on taxonomy , text mined from the search query.
</p>
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<<script>>
speechSynthesis.speak(new SpeechSynthesisUtterance("ROI Payload, Extracted region of interest, searched using a search API on Google and Bing for Taxonomical information, returned as a JSON payload to be integrated in the GIS.on the taxonomy construction called ATC, For Knowledge Data Structures, let K be defined as a iteration over vi.let O be mapped to a expression, vi is the vector enumeration of T, the taxonomies. Taxonomy Ontology T consists of Species and a data structure of Related_Species, which may be one or many. Taxonomy Ontology T1 is the new Gravitational Nomenclature with the Query.Taxonomy Ontology T2 is the EthnoBotany, for example Midwest druidery or indigenous, and the Query.Details of Taxonomy construction, for GIS integration in mapillary follows, This uses an API for a reverse image search, for information on taxonomy, text mined from the search query."));
<</script>>
[[slide 006]]
[[Ask the expert]]
[[Back to the Introduction]] <html>
<h1> Engineering with Akira Miyawaki</h1>
<article>
<img src = "https://synthmusic.s3.ca-central-1.amazonaws.com/pretalk/mapillary/slides/Slide6.jpg" />
<p>Miyawakis were invented as engineered forests with primary growth patterns, by Akira Miyawaki, an eminent Japanese Botanist. WIth an emphasis on ethnobotany conservation, is the next era of restoration of natural cover through planned afforestation. In an attempt to choose the distribution of the species composition of the quantification of the forest structure into five or more layers based on the size of the trees and plants involved, we create tags for each plant to help plan a Miyawaki. The Miyawaki is represented by a list data structure [ T i_j, T k_l, ...T x_y],Where T i_j is the jth tree or plant of layer i. For each plant p in a database, we have the following tags.
[Layer, SpeciesData, GeoTag, Ontologies ]
</p>
</article>
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<<script>>
speechSynthesis.speak(new SpeechSynthesisUtterance("Miyawakis were invented as engineered forests with primary growth patterns, by Akira Miyawaki, an eminent Japanese Botanist. WIth an emphasis on ethnobotany conservation, is the next era of restoration of natural cover through planned afforestation. In an attempt to choose the distribution of the species composition of the quantification of the forest structure into five or more layers based on the size of the trees and plants involved, we create tags for each plant to help plan a Miyawaki. The Miyawaki is represented by a list data structure of T i_j, T k_l, to T x_y, Where T i_j is the jth tree or plant of layer i. For each plant p in a database, we have the following tags. Layer, SpeciesData, GeoTag, Ontologies"));
<</script>>
[[slide 007]]
[[Ask the expert]]
[[Back to the Introduction]] <html>
<h1> Engineering with Akira Miyawaki</h1>
<article>
<img src = "https://synthmusic.s3.ca-central-1.amazonaws.com/pretalk/mapillary/slides/Slide7.jpg" />
<p>We data mine the natural distribution of a specific species s, from f(s,x^, t)
and D(s_i, l) for species s_i as the natural distribution of species for a Layer l,
When a Miyawaki is created, the initial species distribution is matched to the distribution of that region of native species, both edible and medicinal and of ethnobotanical value.
D0(s_i,l) is the initial species distribution and Dt(s_i,l) is the distribution with time which changes because of the changes in species composition and the arrival or disappearance of species, including invasive species and the sustainable harvesting/foraging by wildlife of plants.
</p>
</article>
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<<script>>
speechSynthesis.speak(new SpeechSynthesisUtterance("We data mine the natural distribution of a specific species s, from f(s,x^, t) and D(s_i, l) for species s_i as the natural distribution of species for a Layer l, When a Miyawaki is created, the initial species distribution is matched to the distribution of that region of native species, both edible and medicinal and of ethnobotanical value. D0(s_i,l) is the initial species distribution and Dt(s_i,l) is the distribution with time which changes because of the changes in species composition and the arrival or disappearance of species, including invasive species and the sustainable harvesting/foraging by wildlife of plants."));
<</script>>
[[slide 008]]
[[Ask the expert]]
[[Back to the Introduction]] <html>
<h1> Engineering with Akira Miyawaki</h1>
<article>
<img src = "https://public.boxcloud.com/api/2.0/internal_files/559537514951/versions/593147648951/representations/jpg_paged_2048x2048/content/1.jpg?access_token=1!Qzvc_0B3xsTh_xJ5iY72bZJzEpu9aYsz6-8X6Yo8xR2gnMG6018TQ-bnifEDFpO1S5H8qQSmWDRaiB99OBpdi0-GTAnhndsMKiY0u9xAVwCszNCdHR13ukh1DHiiXSM9aqBW3jY-z7aBPAnRYfLwJQ3mb6-aMjkSBIug7jh8O4htayRClfMb91McMeGoAp7_f0uK-QbjogdPZ057qQ3z2TmePLVm8f_ib1BgvcsaMre8cEYnITLJWX-WXRJ8-bS-AOOrZWvxhP6ieHAyBPigEOOqKRGlOH_3dqw6EWEJT0SVAw46vuJPstUiCNpdr9fB7lo1bvK1zo1OI2mqDr9A9lrX_7IUVHqWcFyObTb5RFLz-gZrLtbnrV52lUpSgUU2Rk3Ljr6S7efQrLLSt2ohReTFHUrpb4QBjslvO9EIVw-zsNWOb9SEUvx3pz13lp_i7VJCJ50eDPLeTwz0AdGFeom-F_khX9KItgOxuOreaYsKB8dmoR6vKw_thwOmn6nNcLdyw1uB-sl88PeNySShSO7TvVrCQmpBKpkUGxbgMTSMgvgB1edGjxKK6-yXaSjBPg..&box_client_name=box-content-preview&box_client_version=2.26.0" />
<p>Many species, though not invasive have a large monocultural distribution, much like ‘hotspots’, but the distribution function Dt(s_i, l) is out of balance, normalized, has a threshold criteria in a minimal definition of invasion. This threshold is geo specific, and can depend on several other factors too, and the normalization across species distribution is variable too.
</p>
</article>
</html>
<<script>>
speechSynthesis.speak(new SpeechSynthesisUtterance("Many species, though not invasive have a large monocultural distribution, much like ‘hotspots’, but the distribution function Dt of s_i and l is out of balance, normalized, has a threshold criteria in a minimal definition of invasion. This threshold is geo specific, and can depend on several other factors too, and the normalization across species distribution is variable too."));
<</script>>
[[slide 009]]
[[Ask the expert]]
[[Back to the Introduction]] <html>
<h1> Engineering with Akira Miyawaki</h1>
<article>
<img src = "https://synthmusic.s3.ca-central-1.amazonaws.com/pretalk/mapillary/slides/Slide9.jpg" />
<p>Sustainability is defined by lower and upper limits to the population distribution of the species, used for food or medicine by grazing or human gathering, a natural balance, a part of the spirituality of a Miyawaki, has the balance in built in it, with a close connection to the land, there is a natural understanding of the lower limits of population density and the recovery of the species, in the spirituality. Active spirituality in the form of music and prayer is also beneficial to the health of a Miyawaki
</p>
</article>
</html>
<<script>>
speechSynthesis.speak(new SpeechSynthesisUtterance("Sustainability is defined by lower and upper limits to the population distribution of the species, used for food or medicine by grazing or human gathering, a natural balance, a part of the spirituality of a Miyawaki, has the balance in built in it, with a close connection to the land, there is a natural understanding of the lower limits of population density and the recovery of the species, in the spirituality. Active spirituality in the form of music and prayer is also beneficial to the health of a Miyawaki"));
<</script>>
[[slide 010]]
[[Ask the expert]]
[[Back to the Introduction]] <html>
<h1> Engineering with Akira Miyawaki</h1>
<article>
<img src = "https://synthmusic.s3.ca-central-1.amazonaws.com/pretalk/mapillary/slides/Slide10.jpg" />
<p>Stability of species, is a subjective definition, with species distributions changing actively over time, with newer secondary species replacing or gaining a stronghold in a layer of the Miyawaki. Bounds are defined to define the stability of the composition of the Miyawaki, as a list of T_i_j for each species, specimen and layer in a Miyawaki, for a stability definition, axiomatic in the inherent nature of the spirituality of the druidism associated with the sacred space of the arboretum. It should be mentioned that all peaceful societies on Earth, have maintained genetic source arboretums and the Garden of Paradise Arboretums, almost always associated with an origin theory, social forestry is also practiced as a form of Miyawaki creation for resilience and food and medicine security. It is also deemed the best form of social security and a sacred space.
</p>
</article>
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<<script>>
speechSynthesis.speak(new SpeechSynthesisUtterance("Stability of species, is a subjective definition, with species distributions changing actively over time, with newer secondary species replacing or gaining a stronghold in a layer of the Miyawaki. Bounds are defined to define the stability of the composition of the Miyawaki, as a list of T_i_j for each species, specimen and layer in a Miyawaki, for a stability definition, axiomatic in the inherent nature of the spirituality of the druidism associated with the sacred space of the arboretum. It should be mentioned that all peaceful societies on Earth, have maintained genetic source arboretums and the Garden of Paradise Arboretums, almost always associated with an origin theory, social forestry is also practiced as a form of Miyawaki creation for resilience and food and medicine security. It is also deemed the best form of social security and a sacred space."));
<</script>>
[[slide 011]]
[[Ask the expert]]
[[Back to the Introduction]] <html>
<h1> Engineering with Akira Miyawaki</h1>
<article>
<img src = "https://synthmusic.s3.ca-central-1.amazonaws.com/pretalk/mapillary/slides/Slide12.jpg" />
<p>The stability of one species s_i is dependant on the ( D(s_i,l)) the 'whole' of inter-species synergies called equilibrium stability in dynamical systems theory.
Thus conservation in Miyawakis is defined in the 'whole' in the interdependence of the layers, the canopy and the undergrowth and in flora-fauna dynamics.</voice>
</p>
</article>
</html>
<<script>>
speechSynthesis.speak(new SpeechSynthesisUtterance("The stability of one species s_i is dependant on the D of s_i and l, the whole of inter-species synergies called equilibrium stability in dynamical systems theory. Thus conservation in Miyawakis is defined in the whole in the interdependence of the layers, the canopy and the undergrowth and in flora-fauna dynamics."));
<</script>>
[[slide 013]]
[[Ask the expert]]
[[Back to the Introduction]] <html>
<h1> Engineering with Akira Miyawaki</h1>
<article>
<img src = "https://synthmusic.s3.ca-central-1.amazonaws.com/pretalk/mapillary/slides/Slide13.jpg" />
<p>With Himalayan and Artic circle forestry as the Case Studies, automated afforestation is resolved into taskoids which are customizable, in the design of such primary afforestation for natural cover to fauna, to prevent unnecessary disturbance from flying drones, create ethnobotanical sources of medicinal and edible flora and conserve natural genome, we define a formal framework for afforestation based resilience as defined by Akiro Miyawaki, a japanese plant
</p>
</article>
</html>
<<script>>
speechSynthesis.speak(new SpeechSynthesisUtterance("With Himalayan and Artic circle forestry as the Case Studies, automated afforestation is resolved into taskoids which are customizable, in the design of such primary afforestation for natural cover to fauna, to prevent unnecessary disturbance from flying drones, create ethnobotanical sources of medicinal and edible flora and conserve natural genome, we define a formal framework for afforestation based resilience as defined by Akiro Miyawaki, a japanese plant "));
<</script>>
[[slide 014]]
[[Ask the expert]]
[[Back to the Introduction]] <html>
<h1> Engineering with Akira Miyawaki</h1>
<article>
<img src = "https://synthmusic.s3.ca-central-1.amazonaws.com/pretalk/mapillary/slides/Slide14.jpg" />
<p>Layer 1: The undergrowth is made into a tileable carpet, with natural growth media and necessary pesticides. This technology is being patented by Mutter Gottlich.
Layer 2 onwards:
Amplified hand truck platform for 3D printing rings and placement of the floral element, with natural filling of the ‘ring’ with mulch and growth media.
Details form future work.
</p>
</article>
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<<script>>
speechSynthesis.speak(new SpeechSynthesisUtterance("Layer 1: The undergrowth is made into a tileable carpet, with natural growth media and necessary pesticides. This technology is being patented by Mutter Gottlich.Layer 2 onwards: Amplified hand truck platform for 3D printing rings and placement of the floral element, with natural filling of the ‘ring’ with mulch and growth media.Details form future work. "));
<</script>>
[[slide 015]]
[[Ask the expert]]
[[Back to the Introduction]] <html>
<h1> Engineering with Akira Miyawaki</h1>
<article>
<img src = "https://synthmusic.s3.ca-central-1.amazonaws.com/pretalk/mapillary/slides/Slide15.jpg" />
<p>AMP can be used in afforestation for layers 2+ with a 3D printing attachment, hand trucking trees and plants for the Miyawaki and porting growth media, with amplification.
An example of a modular hand truck, with customized flanges for Segway work platform integration can be found here:
https://www.magliner.com/resources/assembly-instructions/StandardTwoWheelHandTruck.pdf
</p>
</article>
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<<script>>
speechSynthesis.speak(new SpeechSynthesisUtterance("AMP can be used in afforestation for layers 2+ with a 3D printing attachment, hand trucking trees and plants for the Miyawaki and porting growth media, with amplification. An example of a modular hand truck, with customized flanges for Segway work platform integration can be found in the web link"));
<</script>>
[[slide 016]]
[[Ask the expert]]
[[Back to the Introduction]] <html>
<h1> Engineering with Akira Miyawaki</h1>
<article>
<img src = "https://synthmusic.s3.ca-central-1.amazonaws.com/pretalk/mapillary/slides/Slide16.jpg" />
<p>RMP 210 meets A.B in this new hardware integration for Miyawaki AMP support. Details are in an accompanying paper, automation of tiling carpets with layer 1 pegs forms the other automation tools, proven possible even with a Lego Mindstorm kit.
</p>
</article>
</html>
<<script>>
speechSynthesis.speak(new SpeechSynthesisUtterance("RMP 210 meets A.B in this new hardware integration for Miyawaki AMP support. Details are in an accompanying paper, automation of tiling carpets with layer 1 pegs forms the other automation tools, proven possible even with a Lego Mindstorm kit."));
<</script>>
[[Back to the Introduction]]
[[Ask the expert]]
[[Back to the Introduction]] "Welcome to Tree Engineering with Dr Akira Miyawaki."
<p>
Akira Miyawaki (宮脇 昭 Miyawaki Akira, born 29 January 1928) is a Japanese botanist and expert in plant ecology, specializing in seeds and the study of natural forests. He is active worldwide as a specialist in the restoration of natural vegetation on degraded land.
Nationality: Japan
Born: 29 January 1928
[[https://en.wikipedia.org/wiki/Akira_Miyawaki]]
</p>
<p>What is Miyawaki methodology?
Miyawaki is a technique pioneered by Japanese botanist Akira Miyawaki, that helps build dense, native forests. The approach is supposed to ensure that plant growth is 10 times faster and the resulting plantation is 30 times denser than usual.May 19, 2019
[[http://bengaluru.citizenmatters.in/how-to-make-mini-forest-miyawaki-method-34867]]
</p>
<p>
Will degraded land naturally restore forests by akira miyawaki?
Referring to potential natural vegetation (PNV) (a concept he studied in Germany), he developed, tested and refined a method of ecological engineering today known as the "Miyawaki method" to restore native forests from seeds of native trees on very degraded soils which were deforested and without humus.
</p>
"Random Access Slides."
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Background image courtesy: jpl.nasa.gov<html>
<h1> Engineering with Akira Miyawaki</h1>
<article>
<img src = "https://synthmusic.s3.ca-central-1.amazonaws.com/pretalk/mapillary/slides/Slide11.jpg" />
<p>forest_managemnt() is termed "Control Schizophrenia" a term for a curable disorder of humanity in a need to manage or control a Miyawaki Forest, A Miyawaki is a restoration principle, a natural recovery of which human action is a medium. There is thus no management of the natural order, all afforestation is part of a spirituality and not a science of primary growth as recovery of nature after human intervention has ended.
The so called "Forest Management" consists of only of limiting unnatural grazing and over harvesting and decreasing harvesting to restore balance of near invasions which are an indicator of ill health of a Miyawaki, which is usually impossible, owing to the practised spirituality, the grace of the primary forest.
If due to the actions of nature for any species s_endangered, the population falls below a critical threshold then various measured for the conservation of that species in the Miyawaki have to be undertaken by afforestation of that species in a synergy principle.
Forest Management is thus only a management of Human activities and headstarting as a Miyawaki is a natural primary forest growth in the atomicity of the unmanifested, manifested in headstarting activities and natural recovery.
</p>
</article>
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<<script>>
speechSynthesis.speak(new SpeechSynthesisUtterance("Forest management is termed Control Schizophrenia, a term for a curable disorder of humanity in a need to manage or control a Miyawaki Forest, A Miyawaki is a restoration principle, a natural recovery of which human action is a medium. There is thus no management of the natural order, all afforestation is part of a spirituality and not a science of primary growth as recovery of nature after human intervention has ended. The so called Forest Management consists of only of limiting unnatural grazing and over harvesting and decreasing harvesting to restore balance of near invasions which are an indicator of ill health of a Miyawaki, which is usually impossible, owing to the practised spirituality, the grace of the primary forest. If due to the actions of nature for any species s_endangered, the population falls below a critical threshold then various measured for the conservation of that species in the Miyawaki have to be undertaken by afforestation of that species in a synergy principle. Forest Management is thus only a management of Human activities and headstarting as a Miyawaki is a natural primary forest growth in the atomicity of the unmanifested, manifested in headstarting activities and natural recovery."));
<</script>>
[[slide 012]]
[[Ask the expert]]
[[Back to the Introduction]] "Welcome to Tree Engineering with Dr Akira Miyawaki."
<p>
Akira Miyawaki (宮脇 昭 Miyawaki Akira, born 29 January 1928) is a Japanese botanist and expert in plant ecology, specializing in seeds and the study of natural forests. He is active worldwide as a specialist in the restoration of natural vegetation on degraded land.
Nationality: Japan
Born: 29 January 1928
[[https://en.wikipedia.org/wiki/Akira_Miyawaki]]
</p>
<p>What is Miyawaki methodology?
Miyawaki is a technique pioneered by Japanese botanist Akira Miyawaki, that helps build dense, native forests. The approach is supposed to ensure that plant growth is 10 times faster and the resulting plantation is 30 times denser than usual.May 19, 2019
[[http://bengaluru.citizenmatters.in/how-to-make-mini-forest-miyawaki-method-34867]]
</p>
<p>
Will degraded land naturally restore forests by akira miyawaki?
Referring to potential natural vegetation (PNV) (a concept he studied in Germany), he developed, tested and refined a method of ecological engineering today known as the "Miyawaki method" to restore native forests from seeds of native trees on very degraded soils which were deforested and without humus.
</p>
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allow="microphone;"
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