DESC:This patent application claims priority benefit of Indian Provisional Patent Application No: 202141047629, entitled “FLOATING BIOLOGICAL PLANTER SYSTEM”, filed on 20 October 2021. The entire contents of the patent application is hereby incorporated by reference herein in its entirety.

TECHNICAL FIELD
[001] The disclosed subject matter relates generally to planters. More particularly, the present disclosure relates to a floating biological planter island for use in lakes, ponds, rivers and so forth.

BACKGROUND
[002] Water gardeners often try to achieve a decorative effect around ponds and water gardens by placing pots and planters. Fixed decorative planters are commonly used around the pond or on islands in the pond to achieve the decorative effect around ponds and water gardens. Further, submerged planters are available for this purpose. A typical submerged planter support an amount of dirt for growing plants and they can be placed on the submerged shelves surrounding the periphery of the pond or water garden. A number of problems relating to their placement and maintenance plague the existing submerged planters. In addition, pond builders do not always build the correct depth or sized planting shelves in the pond at the outset. Consequently, ad hoc shelves are later added and these can be unstable and unsightly. Water gardeners are most often meticulous with the task of maintaining a neat clean appearance of their garden.

[003] In the natural state, rivers have sufficient hydrophytes and microorganisms to cleanse the water of organism contamination at normal levels. However, they are unable to cope with large quantities of contaminant, and also become less efficient when the surface area of the riverbed is reduced by flattening it and covering it with concrete. It would be desirable to provide a decorative floating island that has facilities for displaying live plants thereon and which can be retrieved for plant replacement.

[004] In the light of the aforementioned discussion, there exists a need for a floating biological planter system with novel methodologies that would overcome the above-mentioned disadvantages.

SUMMARY
[005] The following presents a simplified summary of the disclosure in order to provide a basic understanding of the reader. This summary is not an extensive overview of the disclosure and it does not identify key/critical elements of the invention or delineate the scope of the invention. Its sole purpose is to present some concepts disclosed herein in a simplified form as a prelude to the more detailed description that is presented later.

[006] An objective of the present disclosure is directed towards a floating biological planter system comprising plastic foam cells with various pre-defined planter holes.

[007] Another objective of the present disclosure is directed towards the planter holes accommodates various sizes of planters with adapters for easy adaptation of the various sizes.

[008] Another objective of the present disclosure is directed towards the floating biological planter system for use in a pond, lake, river or other.

[009] Another objective of the present disclosure is directed towards the floating biological planter system includes a buoyant floating simulated island with an arcuate top surface and a flat bottom surface.

[0010] Another objective of the present disclosure is directed towards the floating biological simulated island includes a recess within a top surface of a predetermined size and is configured to receive a plant pot for a decorative plant for display.

[0011] Another objective of the present disclosure is directed towards the buoyant floating simulated island appears as a tropical island.

[0012] Another objective of the present disclosure is directed towards the plant pots of the same size includes different seasonal plants and are periodically exchanged by removing the plant pots existing in the recess and substituting replacement plant pots with different plants.

[0013] Another objective of the present disclosure is directed towards the floating biological planter island defines passageways from the recesses to said underside.

[0014] Another objective of the present disclosure is directed towards the roots of a plant within the pot having a central hole through its base wall is free to grow downward through said passageway to enter the water of the pond. The plant roots goes inside the water helps in oxygenating.

[0015] Another objective of the present disclosure is directed towards attaching the plastic foam cells to each other in a modular way and can take any desired shape, the flexibility in the design helps to make any desired shape of floating island thereby providing an aesthetic look in aerial view/longer view.

[0016] Another objective of the present disclosure is directed towards the plastic foam cells incorporates with the lighting provision for illuminating lights in the night-time with various colour options and intensity of the lighting.

[0017] Another objective of the present disclosure is directed towards providing a provision for an aeration arrangement to perform the aeration in the waterbody. The aeration type may be selected based on the user requirement, the floating island can accommodate, Fountain/Diffused/Aspiration/Turbine.

[0018] Another objective of the present disclosure is directed towards the power required for illuminating lights and aeration is received from a direct electric power source, a diesel generator (DG), and a floating solar.

[0019] Another objective of the present disclosure is directed towards the water quality station and weather monitoring station provides the water quality pictures of pre and post implementation of floating biological planter island. The weather monitoring station helps the users to know the data for any extreme conditions.

[0020] Another objective of the present disclosure is directed towards the entire island can fluctuate according to the water levels and the anchoring arrangements are considered keeping the fluctuations in view.

[0021] Another objective of the present disclosure is directed towards the floating biological planter system includes a camera system for remote live recording for the events.

[0022] Another objective of the present disclosure is directed towards the plastic foam cells holds place for attaching Bio-Lace media to degrade the organic pollutants coming in the lake and river.

[0023] Another objective of the present disclosure is directed towards the Bio-Lace Module is simply made up of a core strand covered with numberless rings of thread. The thread is made of a polymer such as poly (vinylidene chloride) and polypropylene thread.

[0024] Another objective of the present disclosure is directed towards the Bio-Lace Module is placed on the water and the entire Bio lace media is submerged in water.

[0025] Another objective of the present disclosure is directed towards generating the oxygen for microbes by the diffused aerations system thereby helping the microorganisms for growth on the Bio-Lace.

[0026] Another objective of the present disclosure is directed towards the Bio-Lace is to supplement the Lakes/ river’s inherent ability.

[0027] Another objective of the present disclosure is directed towards proliferating microbes efficiently to treat the sewage, and ensure a high quality of treated water.

[0028] Another objective of the present disclosure is directed towards the floating biological planter that operates at low maintenance, and is easy to install.

[0029] Another objective of the present disclosure is directed towards recognizing the Bio-Lace as a promising water treatment tool, and can be implemented in medium and small size ponds, lake, rivers, without any significant down time.

[0030] Another objective of the present disclosure is directed towards using the Bio-Lace material for the growth of microorganisms.

[0031] Another objective of the present disclosure is directed towards using the Bio-Lace material has a positive charge and when placed in water the Bio-Lace material attracts microbes which by nature have a slightly negative charge.

[0032] Another objective of the present disclosure is directed towards the contact material is made of small fibres therefore bacteria attach to its surface easily.

[0033] Another objective of the present disclosure is directed towards a large surface area and space make it an ideal environment and dwelling for many different kinds of microorganisms.

[0034] Another objective of the present disclosure is directed towards the structure of Bio-Lace and even ring of strands of cord around a central core provides the best conditions for bacteria in which to multiply, at both the surface and interior of the cord.

[0035] Another objective of the present disclosure is directed towards using Polyvinylidene chloride is a type of raw material for Bio-Lace, which is physically, and chemically stable and, as a result, the Bio-Lace’s endurance is high.

[0036] Another objective of the present disclosure is directed towards the weight of the Bio-Lace is well suited to float in water with the gathering bacteria groups.

[0037] Another objective of the present disclosure is directed towards the rigidity of the Bio-Lace is suited to produce even lengths of strands coming out from the middle cord.

[0038] Another objective of the present disclosure is directed towards the floating biological planter helps in growing vegetables, fruits and many agricultural products.

[0039] According to an exemplary aspect, a floating biological planter system includes a buoyancy unit integrated with a Bio-Lace media, the buoyancy unit includes an aeration system configured to generate oxygen for microbes from bottom of the buoyancy unit thereby enhancing growth of microorganisms on the Bio-Lace media.

[0040] According to another exemplary aspect, the buoyancy unit includes a top surface and a flat bottom surface, the flat bottom surface of the buoyancy unit includes one or more rings and the top surface comprises one or more planter holes to accommodate one or more plant pots for a decorative plant display.

[0041] According to another exemplary aspect, the one or more rings are arranged in circular array about the center of the one or more planter holes, the one or more rings around the one or more planter holes configured to integrate the Bio-Lace media to the buoyancy unit, the Bio-Lace media configured to attract microbes and enhance the growth of microorganisms.

BRIEF DESCRIPTION OF THE DRAWINGS
[0042] In the following, numerous specific details are set forth to provide a thorough description of various embodiments. Certain embodiments may be practiced without these specific details or with some variations in detail. In some instances, certain features are described in less detail so as not to obscure other aspects. The level of detail associated with each of the elements or features should not be construed to qualify the novelty or importance of one feature over the others.

[0043] FIG. 1A, FIG. 1B are example diagrams depicting a floating biological planter, in accordance with one or more exemplary embodiments.

[0044] FIG. 2A, FIG. 2B are another example diagrams depicting a floating biological planter, in accordance with one or more exemplary embodiments.

[0045] FIG. 3A, FIG. 3B are another example diagrams depicting the floating biological planter, in accordance with one or more exemplary embodiments.

[0046] FIG. 4A, FIG. 4B are example diagrams depicting the planter pot and a planter float rubber, in accordance with one or more exemplary embodiments.

[0047] FIG. 5A is an example diagram depicting a plant pot retainer, in accordance with one or more exemplary embodiments.

[0048] FIG. 5B is an example diagram depicting letters, in accordance with one or more exemplary embodiments.

DETAILED DESCRIPTION OF EXAMPLE EMBODIMENTS
[0049] It is to be understood that the present disclosure is not limited in its application to the details of construction and the arrangement of components set forth in the following description or illustrated in the drawings. The present disclosure is capable of other embodiments and of being practiced or of being carried out in various ways. Also, it is to be understood that the phraseology and terminology used herein is for the purpose of description and should not be regarded as limiting.

[0050] The use of “including”, “comprising” or “having” and variations thereof herein is meant to encompass the items listed thereafter and equivalents thereof as well as additional items. The terms “a” and “an” herein do not denote a limitation of quantity, but rather denote the presence of at least one of the referenced item. Further, the use of terms “first”, “second”, and “third”, and the like, herein do not denote any order, quantity, or importance, but rather are used to distinguish one element from another.

[0051] Referring to FIG. 1A, FIG. 1B, FIG. 1A, FIG. 1B are example diagrams 100a and 100b depicting a floating biological planter, in accordance with one or more exemplary embodiments. The diagram 100a and 100b includes a floating biological planter system 101. The floating biological planter system 101 includes a plastic foam cell 102 with various pre-defined planter holes 104a, 104b, 104c..104n. The planter holes 104a, 104b, 104c..104n may accommodate various sizes of planters 106 with adapters for easy adaptation. The decorative floating planter for use in a pond or other further includes a buoyant floating simulated island having a generally arcuate top surface and a flat bottom surface. The floating planter may include a recess within the top surface of a predetermined size and is configured to receive a plant pot for a decorative plant for display. The plant pots of the same size may include different seasonal plants may be periodically exchanged by removing the plant pots existing in the recess and substituting replacement plant pots having different plants.

[0052] The floating planter defines passageways from the recesses to the underside whereby the roots of a plant within a pot placed therein having a central hole through its base wall is free to grow down through the passageway to enter the water of the pond. The plant roots may go inside the water will help in oxygenating.

[0053] The plastic foam cells 102 may attach modular way and can take any shape. The flexibility in the design help to create any desired shape of the floating island to give an aesthetic look in aerial view/longer view. The plastic foam cells 102 may be incorporated with the lighting provision for illuminating lights in the nighttime with various colour options and intensity of the lighting.

[0054] The floating biological planter system 101 may include the provision for an aeration arrangement incorporated within for performing the aeration in the waterbody. The aeration arrangement is selected based on the user requirement. The floating island may accommodate Fountain/Diffused/Aspiration/Turbine and so forth. The power required to illuminate the lights and to perform aeration may be received from a direct electric power source, a diesel generator, or a floating solar and so forth.

[0055] The floating biological planter system 101 may include an optional provision for incorporating the water quality station and weather monitoring station, thus can provide the water quality pictures of pre and post-implementation of floating biological planter island (Bio Lace– Island). The weather monitoring station may help to know the data for any extreme conditions. The entire island may fluctuate according to the water levels and considering the anchoring arrangements by keeping the fluctuations in view. The floating biological planter 100 may include a camera system for a remote live recording of the events.

[0056] The plastic foam cell 102 holds a place for attaching a Bio-Lace media to degrade the organic pollutants coming in the lake and river. Each Bio-Lace media is simply made up of a core strand covered with numberless rings of thread. The thread is made up of a polymer such as poly (vinylidene chloride) and polypropylene thread. In appearance, it resembles a fantastically long tangle of the thread covered in loops. When in use, 10m lengths of the cord are stretched between pairs of poles 110, spaced 10 cm apart. These poles 110 are planted on a riverbed so that the cords are underwater. The total number of lace to be used is varied based on the width and depth of the Tank/Lake. Entire Bio-lace media may be submerged in water when the Bio-Lace Module is placed on the water. The oxygen may be provided from the bottom for microbes via the diffused aerations system. These conditions may help the microorganisms to grow on the Bio-lace. The Bio-Lace is to supplement the Lakes/ river’s inherent ability. At first, it might seem to be a matter of chance that bacteria may adhere to Bio-Lace, however, the thread rings have a positive charge in the water and the microbe cells are negatively charged. As a result, the microbes are attracted to thread rings and held by the threads. In addition to this, bacteria are divided into two types, aerobic and anaerobic, according to their preference for air.

[0057] The Bio-Lace may be configured to prevent dissolved oxygen from reaching the cored center, where anaerobes prevail. On the other hand, aerobes multiply in the outer part. Bio-Lace thus provides a symbiotic culture bed for a wide spectrum of microbes including bacteria, protozoans, and algae. The proliferating microbes efficiently treat the sewage and ensure a high quality of treated water. Anaerobes consume the excreta of the aerobes, so the system becomes a balanced food chain in itself, and produces less excess sludge than other systems. The system requires little maintenance and is easy to install. Bio-Lace is recognized as a promising water treatment tool and is implemented in medium and small ponds, lakes, rivers, without any significant downtime. The floating biological planter system 101 may be configured to help in growing vegetables, fruits and many agricultural products.

[0058] Referring to FIG. 2A, FIG. 2B, FIG. 2A, FIG. 2B are another example diagrams 200a and 200b depicting a floating biological planter, in accordance with one or more exemplary embodiments. The diagrams 200a and 200b include the floating biological planter 101. The floating biological planter 101 includes a Bio-Lace media 202, buoyancy unit 204, a top surface 206 and a flat bottom surface 208, and rings 210. The Bio-Lace media 202 may help for the growth of microorganisms for multiple reasons. The Bio-Lace media 202 has a positive charge and when placed in water the Bio-Lace media 202 may attract microbes which by nature have a slightly negative charge. Its large surface area and space make it an ideal environment and dwelling for many different kinds of microorganisms. The contact material is made of small fibers therefore bacteria attach to its surface easily. The structure of Bio-Lace media 202 and even ring of strands of cord around a central core, give bacteria the best conditions in which to multiply, both at the surface and interior of the cord. Polyvinylidene chloride is one type of raw material for Bio-Lace media 202, the Bio-Lace media 202 is physically and chemically stable and, as a result, Bio-Lace’s endurance is high. The weight of the Bio-Lace media 202 is well suited to float in the water with the gathering bacteria groups. The rigidity of the Bio-Lace media 202 is suited to produce even lengths of strands coming out from the middle cord.

[0059] In an embodiment of the present disclosure, the floating biological planter 101 includes a buoyancy unit integrated with a Bio-Lace media 202. The buoyancy unit 204 includes an aeration system configured to generate oxygen for microbes from bottom of the buoyancy unit 204 thereby enhancing growth of microorganisms on the Bio-Lace media 202. The buoyancy unit 204 includes the top surface 206 and the flat bottom surface 208, the flat bottom surface 208 of the buoyancy unit 204 includes the rings 210 and the top surface includes the planter holes 104a, 104b, 104c...104n may be configured to accommodate the plant pots for a decorative plant display.

[0060] The rings 210 are arranged in circular array about the center of the planter holes 104a, 104b, 104c...104n, the rings 210 around the planter holes 104a, 104b, 104c...104n may be configured to integrate the Bio-Lace media 202 to the buoyancy unit 204, the Bio-Lace media 202 may be configured to attract microbes and enhance the growth of microorganisms. The rings 210 may be configured to integrate the Bio-Lace media 202 to the buoyancy unit 204. The Bio-Lace media 202 may be made up of a core strand covered with multiple rings of a thread. The thread of the Bio-Lace media 202 is made up of a polymer such as poly (vinylidene chloride) and polypropylene thread.

[0061] The Bio-Lace media 202 may be configured to degrade organic pollutants formed in a pond. The rings 210 includes a positive charge in the water and the microbes are negatively charged, the microbes are attracted to the rings 210 and are held by the thread. The microbes are divided into two forms, aerobic and anaerobic, according to the preference for air. The Bio-Lace media 202 may be configured to prevent dissolved oxygen from reaching the cored center of the planter holes 104a, 104b, 104c..104n, where the anaerobes prevail and the aerobes multiply in the outer part of the buoyancy unit 204.

[0062] The Bio-Lace media 202 may be configured to provide a symbiotic culture bed for a wide spectrum of microbes and proliferating the microbes efficiently treat the sewage, and ensure a high quality of treated water. The weight of the Bio-Lace media 202 is well suited to float in water with the gathering of microbe groups. The Bio-Lace media 202 may be configured to cleanse the water of organism contamination. The buoyancy unit 204 may be a plastic foam cell.

[0063] The plant pots includes the central holes and are configured to grow down the plant roots through one or more passageways to enter the water of the pond. The buoyancy unit 204 includes a lighting provision may be configured to illuminate lights at nighttime with various color options and intensity of lighting. The buoyancy unit 204 may be integrated with at least one of: a direct electric power source; a diesel generator; and a floating solar configured to supply power required to illuminate the lights and to perform aeration. The buoyancy unit 204 may be integrated with a water quality station and a weather monitoring station to capture water quality pictures of pre and post-implementation of the floating biological planter 101.

[0064] The weather monitoring station configured to obtain water quality data from the water quality pictures. The water quality pictures of pre and post-implementation of the floating biological planter 101 are captured using a camera system. The camera system may be also configured to capture remote live recording of the events.

[0065] Referring to FIG. 3A, FIG. 3B, FIG. 3A, FIG. 3B are another example diagrams 300a and 300b depicting the floating biological planter, in accordance with one or more exemplary embodiments. The diagram 300a and 300b includes the floating biological planter system 101. The floating biological planter system 101 includes the plastic foam cell (planter float) 102 with various pre-defined planter holes 104a, 104b, 104c..104n, plant pots 302, plant pot retainers 304 and a rough thread surface 306. The planter holes 104a, 104b, 104c..104n may accommodate various sizes of the planters 106 with adapters for easy adaptation. The decorative floating planter for use in a pond or other further includes a buoyant floating simulated island having a generally arcuate top surface and a flat bottom surface. The floating planter may include a recess within the top surface of a predetermined size and is configured to receive the plant pots 302 for a decorative plant for display. The plant pots 302 of the same size may include different seasonal plants may be periodically exchanged by removing the plant pots 302 existing in the recess and substituting replacement plant pots 302 having different plants.

[0066] The plastic foam cells 102 may attach modular way and can take any shape. The flexibility in the design help to create any desired shape of the floating island to give an aesthetic look in aerial view/longer view. The plastic foam cells 102 may be incorporated with the lighting provision for illuminating lights in the nighttime with various colour options and intensity of the lighting.

[0067] Referring to FIG. 4A, FIG. 4B, FIG. 4A, FIG. 4B are example diagrams 400a and 400b depicting the planter pot and a planter float rubber, in accordance with one or more exemplary embodiments. The diagram 400a includes the plant pots 302. The plant pots 302 of the same size may include different seasonal plants may be periodically exchanged by removing the plant pots 302 existing in the recess and substituting replacement plant pots 302 having different plants. The diagram 400b includes a planter float rubber 402. The planter float rubber 402 joints for attaching one or more the plastic foam cell 102 to make the plastic foam cell 102 in desired shapes. The planter float rubber 402 may be configured to write the city names or any shape.

[0068] Referring to FIG. 5A, FIG. 5A is an example diagram 500a depicting a plant pot retainer, in accordance with one or more exemplary embodiments. The diagram 500a includes the plant pot retainer 304 may allow to attach the bio lace-media 202 and the plant pot retainer 304 may lock the plant pots 302 to not to come out.

[0069] Referring to FIG. 5B, FIG. 5B is an example diagram 500b depicting letters, in accordance with one or more exemplary embodiments. The diagram 500b includes letters 502. The letters 502 may be arranged in any shape or name of city, person, place, company name and the like using the plastic foam cells 102. The plastic foam cells 102 may be integrated with the lighting provision for illuminating lights in the nighttime with various colour options and intensity of the lighting. The illumination effect configured to provide a very good effect in the night.

[0070] Reference throughout this specification to “one embodiment”, “an embodiment”, or similar language means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one embodiment of the present disclosure. Thus, appearances of the phrases “in one embodiment”, “in an embodiment” and similar language throughout this specification may, but do not necessarily, all refer to the same embodiment.

[0071] Although the present disclosure has been described in terms of certain preferred embodiments and illustrations thereof, other embodiments and modifications to preferred embodiments may be possible that are within the principles and spirit of the invention. The above descriptions and figures are therefore to be regarded as illustrative and not restrictive.

[0072] Thus the scope of the present disclosure is defined by the appended claims and includes both combinations and sub-combinations of the various features described hereinabove as well as variations and modifications thereof, which would occur to persons skilled in the art upon reading the foregoing description.
,CLAIMS:We Claim:
1. A floating biological planter system, comprising:

a buoyancy unit integrated with a Bio-Lace media, whereby the buoyancy unit comprises an aeration system configured to generate oxygen for microbes from bottom of the buoyancy unit thereby enhancing growth of microorganisms on the Bio-Lace media;

the buoyancy unit comprises a top surface and a flat bottom surface, wherein the flat bottom surface of the buoyancy unit comprises one or more rings and the top surface comprises one or more planter holes to accommodate one or more plant pots for a decorative plant display, the one or more plant pots comprises one or more plant pot retainers allow to attach with the Bio-lace media and lock the one or more plant pots to not to come out; and

the one or more rings are arranged in circular array about the center of the one or more planter holes, whereby the one or more rings around the one or more planter holes configured to integrate the Bio-Lace media to the buoyancy unit, the Bio-Lace media configured to attract microbes and enhance the growth of microorganisms.

2. The floating biological planter as claimed in claim 1, wherein the one or more rings configured to integrate the Bio-lace media to the buoyancy unit.

3. The floating biological planter as claimed in claim 1, wherein the Bio-Lace media is made up of a core strand covered with multiple rings of a thread.

4. The floating planter as claimed in claim 3, wherein the thread of the Bio-Lace media is made up of a polymer such as poly (vinylidene chloride) and polypropylene thread.

5. The floating biological planter as claimed in claim 1, wherein the Bio-Lace media configured to degrade organic pollutants formed in a pond.

6. The floating biological planter as claimed in claim 1, wherein the one or more rings comprises a positive charge in the water and the microbes are negatively charged, whereby the microbes are attracted to the one or more rings and are held by the thread.

7. The floating biological planter as claimed in claim 6, wherein the microbes are divided into two categories, aerobic and anaerobic, according to the preference for air.

8. The floating biological planter as claimed in claim 1, wherein the Bio-Lace media configured to prevent dissolved oxygen from reaching the cored center of the one or more planter holes, where anaerobes prevail and aerobes multiply in the outer part of the buoyancy unit.

9. The floating biological planter as claimed in claim 1, wherein the Bio-Lace configured to provide a symbiotic culture bed for a wide spectrum of microbes and proliferating the microbes efficiently treat the sewage, and ensure a high quality of treated water.

10. The floating biological planter as claimed in claim 1, wherein the Bio-Lace weight is well suited to float in water with the gathering of microbe groups.

11. The floating biological planter as claimed in claim 1, wherein the Bio-Lace media is configured to cleanse the water of organism contamination.

12. The floating biological planter as claimed in claim 1, wherein the buoyancy unit is made up of a plastic foam cell.

13. The floating biological planter as claimed in claim 1, wherein the one or more plant pots comprises one or more central holes and are configured to grow down the plant roots through one or more passageways to enter the water of the pond.

14. The floating biological planter as claimed in claim 1, wherein the buoyancy unit comprises a lighting provision is configured to illuminate one or more lights at nighttime with various color options and intensity of lighting.

15. The floating biological planter as claimed in claim 1, wherein the buoyancy unit is integrated with at least one of: a direct electric power source; a diesel generator; and a floating solar configured to supply power required to illuminate the one or more lights and to perform aeration.

16. The floating biological planter as claimed in claim 1, wherein the buoyancy unit is integrated with a water quality station and a weather monitoring station to capture one or more water quality pictures of pre and post-implementation of the floating biological planter.

17. The floating biological planter as claimed in claim 16, wherein the weather monitoring station configured to obtain water quality data from the one or more water quality pictures.

18. The floating biological planter as claimed in claim 17, wherein the one or more water quality pictures of pre and post-implementation of the floating biological planter are captured using a camera system.

19. The floating biological planter as claimed in claim 18, wherein the camera system is also configured to capture remote live recording of one or more events.

20. The floating biological planter as claimed in claim 1, wherein the one or more plant pots of same size comprise different seasonal plants and are periodically exchanged by removing the one or more plant pots existing in the one or more plant holes and substituting replacement plant pots having different plants.