This other list is about relevant Further steps related with our battery technologies publicated so far:

Ontonics Further steps
We developed another variant of our energy-bus EnergyCAN (ECAN) or PowerCAN, which provides many more advantages now in combin- ation with Style of Speed's Active Components as well as Computing and Multimedia technologies, like the AutoWiSer and the WiSer Con- trol Unit (see the AutoWiSer #2 of the 7th of January 2015).

Furthermore, in the last days we played around with some scientific foundations and developed a feeling for them as well as a very inter- esting concept.

Style of Speed Further steps
We connected the control system of the new energy-bus variant (see the Ontonics Further steps of today above) with our WiSer Control Unit (see the issue AutoWiSer #2 of the 7th of January 2015 and also the Further steps of the 8th of January 2015).

Also, we improved our Quickcharger Service Stations (see the relat- ed Further steps of the 4th of January 2015 and 22nd of July 2015).

03.August.2015
Clarification
For sure, we do know that computer vision is on a very earlier stage of development, and that the knowledge and the solutions promoted by other entities is on the level that they do know that the apple falls down from a tree (see also for example the webpage of our Active Camera 1.0) if compared with the knowledge about physics.
But this does not apply for us and our Active Components, AutoBrain with AutoWiSer inside and WiSer Control Unit (WCU) integration, as well as our Knight Intelligent Transport Totality (K.I.T.T.) and Knight Autocybernetic Roving Robotics (K.A.R.R.) platforms, which are already of the next generation, as we have notified with the new variants of our Active Camera 2.0 (see the Further steps of the 9th of January 2015) as well as our lidar systems 1.0 and lidar systems 2.0 (see the Ontonics Further steps of the 7th of January 2015 and 28th of July 2015).

Even more interesting, with the next two generations of our world- wide unique and superior solutions we are short before overcoming a very special break-even point, when the Active Sensors get enough data about the environment and the AutoBrain processes all these data and computes the corresponding commands for the Active Act- uators in real-time, so that more geographic data given in advance does not generate an additional advantage anymore and as a result our vehicles can drive completely autonomous without a navigation aid based on a digital map or a satellite, though for example the Global Positioning System (GPS) is standard somehow.

Style of Speed Further steps
In the last days we thought about a smaller variant of our e-quattro model E6, specifically because we have everything ready for launch inclusive our Quickcharger Service Station network (see the related Further steps of the 4th of January 2015, 22nd of July 2015, and yesterday).
Today, we think that it is a good idea to announce our new model E3, but at this time the decision about a hatchback or a sedan has not been made.

We also developed a special Active Camera array component, which provides a resolution of 8×41.2 MegaPixel (MP). The image below shows only the 1.0 variant, which differs from the 2.0 variant in some details, such as the interface to electromagnetical wired and wireless interchip/off-chip interconnects of an AutoWiSer.

© :(

More Style - More Power - More Fun

04.August.2015
Clarification or Investigations::Multimedia

First of all, we saw directly, that KDAB and the others have jumped on the bandwagon of our OntoLix and OntoLinux, specifically in relat- ion with the software libraries, components, frameworks, and applic- ations for 3D programming, modeling, and presenting, such as the OntoGraphics and OntoScope components, as well as the linked software libraries and applications, such as the Visualization ToolKit (VTK) and the computer graphics software Blender, to steal as much as possible from us for their software frameworks, such as that Qt3D 2.0, game engines, such as Unity, and services, and therefore use the terms entity, component, and relational for their defrauding marketing activities.

Even more funny, companies like KDAB and Unity Technologies claim to be the leading entities in the fields of the Object-Oriented (OO) programming language C++ and 3D game engines. But for example KDAB even claims that the ECS paradigm is not the OO paradigm, because ESC rejects the essential OO concepts of inheritance and encapsulation in favour of entities and components, though a closer look proves that it is just another misleading interpretation of an OO software architecture and hence it is no wonder at all that Qt3D's entities are derived from a basic OO class and its components are also objects of specific OO classes.

We as true experts also saw directly that ECS is in fact nothing else than a general OO software architecture based on very well known OO software patterns, such as the:

• separates an interactive system into three types of compon- ents responsible for specific aspects of the application's functionality

• represents any group of objects as a single entity or/and
• reuses a code to store different kinds of objects,

• defines a family of algorithms,
• encapsulates each algorithm, and
• makes the algorithms interchangeable within that family,

• encapsulates all information needed to perform an action or trigger an event at a later time,

that are all represented as a tree, which is very similar to the tree of a data-driven scene graph framework on the one hand and called framegraph for the marketing on the other hand.
In the same way, the proposed relational persistence layer of the ECS is just the common Object Relational (O/R) Mapping (ORM) technique. And this not all what we can give as explanations about this subject.

Obviously, at least KDAB has not understood the OO paradigm or is betraying the public and the Qt developer community, and has also begun to infringe our copyright by reflecting the concepts behind the OntoGraphics and OntoScope components.

We have grown up with for example:

and were one of the secret driving forces behind the further devel- opment of the OOSE approach to the Unified Modeling Language (UML) as described in,

Ontonics Further steps
We designed another Stroetmann Cycle, which has some significant advantages.

We also have begun with the development of a relatively new tech- nology.

Another development is related a basic component, which on the one side provides more functionality and performance and on the other side has several fields of application.

Furthermore, we continued the development of a new mobile device, that has its market potential.

And we have applied the first of several optimizations of an afford- able battery technology to increase its energy density and to make it ready for the Quickcharger of Style of Speed.

OntoLix and OntoLinux Further steps
We continued the work on our OntoGraphics component.
As a side effect we have developed a new approach.

Style of Speed Further steps
We thought that it would be a very advantageous move to offer two models of the E3 with a specific variant of our Opened-loop Fuel Cell for very affordable prices in the range of:

In this relation, we are also thinking once again about the already mentioned subscription contracts for recharging and refueling at our Quickcharger Service Station network, which includes contracts for a flat-rate or a limited period (see the related Further steps of the 4th of January 2015).

Potentially, the original RE with Opened-loop Fuel Cell is back again besides the new RE f-tron (see the Further steps of the 21st of July 2015).

06.August.2015
Comment of the Day #1
"Boom", [Little Boy, 6th of August 1945, 08:15 JST]

Comment of the Day #2
"Real Virtuality™"
Democracy, capitalism, consumption, marketing with customer surveillance and advertising, and running wild media, indeed, the boundary between the Real Virutality (RV) and the Virtual Reality (VR) is blurring.

intelliTablet Further steps
We are thinking about 4 form factors for our Flip-Flops in the e-reader variant with an electronic paper display and have already definied some other features of them (see also the Further steps of the 24th of January 2015).

iRaiment Further steps
For several months we have worked on our Flip-Flop watch (see also the related section of the Further steps of the 4th of December 2014 and the Further steps of 9th of April 2015), which is now ready for production.
The image below and the linked animation show a design concept of another company, which is in some aspects similar to our Flip-Flop watch concept, but in contrast our Flip-Flop watch comprises many variants that can have a flexible or bendable respectively deform- able:

© :I

07.August.2015
Ontonics Further steps
We made a further improvement of the battery technology already optimized last week (see the Further steps of the 31st of July 2015) in two highly intelligent ways.

intelliTablet Further steps
We improved our Flip-Flop technology in two different ways.

Style of Speed Further steps
We are pleased to inform the public that our Quickcharger Service Station network is growing unbelievably fast and that we do not need such gimmicks like water-cooled cables for example to provide our superior services.

08.August.2015
Ontonics Further steps
We would like to announce our new electric energy storage techno- logy, which provides a specific energy of ... Wh/kg and an energy density of ... Wh/L, as well as extremely quick recharging times, and much more. With this electric energy storage technology for example a drive battery of a pure electric automobile can be recharged under 10 minutes with the suitable facilities, such as the Quickcharger Service Stations of Style of Speed.

Ontologics.info Further steps
Since some weeks we are thinking about the option to license spec- ific services of other companies, which include for example map and search engine services, to supplement the functionalities of our Ontologic Information System (OIS) based on our original Ontologic System (OS) architecture (see the related Further steps 26th of August 2013, 13th of September 2013, and 17th of November 2013).

Style of Speed Further steps
Doubtlessly, we from Style of Speed always take part in the development of the outstanding electric energy storage devices developed by Ontonics and the OntoLab, so that it is compatible with our electric vehicles and our Quickcharger Service Stations.

Roboticle Further steps
For sure, as a high-tech business division managed by Ontonics we are involved as well in the development of the electric energy storage devices developed in the OntoLab and have the knowledge about all technical details and advantages of these devices, This places us in an exclusive position to transform this knowledge into our competitive advantages.

10.August.2015
intelliTablet Further steps
We have added two more e-reader variants based on our Flip-Flop technology (see also the Further steps of the 24th of January 2015 and 6th of August 2015).

Style of Speed Further steps
We worked on the new design for our electric sportscar model RE (see also the Further steps of the 21st of July 2015 and the 4th of August 2015) and potentially have found a starting point.

We also worked a little on the design of two models of the 9x9 project.

Here is the complete list of all Further steps related with the 9x9 publicated so far:

11.August.2015
Clarification
A common watch with additional features, such as Global Positioning System (GPS), wireless network connectivity, thermometer, pedo- meter/step counter, or other sensors, is a several decades old tech- nology and no smartwatch at all, but a feature watch if at all.
A smartwatch is a wearable computer with an electronic visual dis- play and commonly worn on the wrist and mounted by a strap, though other variants are possible such as a pocket smartwatch, a neck worn device, or a clothing item.

iRaiment Further steps
While another company reduced the size of the battery of its smart- watch from 300 mAh to 250 mAh, we increased the capacity for high-end models once again to 2,000 mAh over 2,700 mAh and up to 3,500 mAh if needed, while the more affordable models provide at least 1,000 mAh of electric power (see also the Further steps of the 20th of October 2014 and 15th of February 2015).

We also would like to give the information that special smartwatch models of iRaiment having an accumulator/battery wristband/strap are waterproof to a depth of 100 meters (IEC standard 60529; IP68) and therefore ideal mobile devices for divers as well.

Roboticle Further steps
For sure and as already announced on the 8th of August 2015, we are working on the integration of our new electric energy storage device (see the Ontonics Further steps of the 8th of August 2015 for example) with our two matured Unmanned Aerial Vehicle (UAV) platforms and our two new UAV platforms (see also the Further steps of the 12th and 15th of February 2015) to improve their usabilities and capabilities, specifically their:

Correspondingly our UAV solutions and services, like for example our multidrone and our delivery drone, are significantly improved as well once again.
In addition, we adapted the new variant of our EnergyCAN (ECAN) (see the Ontonics Further steps of the 2nd of August 2015).

13.August.2015
Ontonics Further steps
We have developed another variant of the technology mentioned in the Further steps of the 9th of June 2015 and 10th of June 2015 by using a technology mentioned in the Further steps of the 11th of June 2015, which has a more preferable shape.

14.August.2015
Ontonics Further steps
We developed a new variant of one of our technologies, which solves a conceptual problem.

Style of Speed Further steps
Thanks to our

• Active Components,
• Computing and Multimedia technologies, and
• Energy Controller Area Network (ECAN),

as well as

we can begin the production phase of our pure electric models E3 and E6. In this respect we have several options:

We also worked on the related pricing model for the E3, E6, and RE:

• basic variant with RWD
  • BT1 with 60 kWh 30,474 USD
  • BT2 with 60 kWh 37,774 USD
  • BT1 with 120 kWh 37,974 USD
  • BT2 with 120 kWh 45,274 USD
• e-quattro variant with AWD
  • BT1 with 80 kWh 49,751 USD
  • BT2 with 80 kWh 59,491 USD
  • BT1 with 160 kWh 59,751 USD
  • BT2 with 160 kWh 69,491 USD

• basic variant with RWD
  • BT1 with 80 kWh 51,433 USD
  • BT2 with 80 kWh 61,173 USD
  • BT1 with 160 kWh 61,433 USD
  • BT2 with 160 kWh 83,573 USD
• e-quattro variant with AWD
  • BT1 with 100 kWh 72,537 USD
  • BT2 with 100 kWh 84,712 USD
  • BT1 with 200 kWh 85,037 USD
  • BT2 with 200 kWh 112,712 USD

• e-quattro variant with AWD
  • BT1 with 100 kWh 89,354 USD
  • BT2 with 100 kWh 101,529 USD
  • BT1 with 200 kWh 101,854 USD
  • BT2 with 200 kWh 129,529 USD

• e-quattro variant with AWD
  • BT1 with 100 kWh 89,354 USD
  • BT2 with 100 kWh 101,529 USD
  • BT1 with 200 kWh 101,854 USD
  • BT2 with 200 kWh 129,529 USD

As we said in the past already, the decision in favour of a hatchback respectively station wagon or a sedan (plus around 2,000 USD for the E3 sedan) has not been made, but we think a hatchback is more practical when used as an urban car. Also, a CUV or SUV is not out of sight.

The non-binding prices:

Quick charging of the Battery Type 1 (BT1) can only be done at our Quickcharger™ Service Stations.
Hyper charging of Battery Type 1 (BT1) and Battery Type 2 (BT2) can only be done at our Quickcharger™ Service Stations with Hypercharger™ fascility.

Used terms (symbols):

15.August.2015
Ontonics Further steps
We have replaced the foundational technology of our stationary electric energy storage devices (see the related Further steps of the 5th and 24th of May 2015) with another one of our superior battery technologies.
The three models of home batteries have the following capacities and target prices (without value added tax):

Also, we have contiued the work on the technology mentioned in the Further steps of the 9th of June 2015, 10th of June 2015, and 13th of August 2015.

In the course of this we remembered two other technologies, which are complementary and have already been integrated by us, and also another technology, which is related with these two other tech- nologies, and realized that they all share the same foundations and that we were already much closer to use them in another way. As a result of this, we developed an integrating concept and in a sub- sequent step began to optimize the technological foundations for improving the already excellent qualities.

Furthermore, we have developed our next e-paper in 2×2 variants with superior qualities.

intelliTablet Further steps
In fact, the preparations for the production of our Flip-Flops in the e-reader variant (see also the Further steps of the 24th of January 2015 and 6th of August 2015) have already started many years ago.
The image below shows another functional prototype of the found- ational electronic paper display technology of a flexible e-reader with touchscreen respectively flexible e-paper tablet computer, which is based on the concept of the Thinnest Notebook, Tablet Computer and Smartphone of the World developed by our OntoLab (see the Original vs. Inspiration of the 21st of March 2012 for more inform- ations) on the one hand and has been realized by another laboratory at the end of 2012 on the other hand.
For sure, we have improved our original concept in several ways in the last years.

© :I

Ideally, the targeted price for a basic Flip-Flop with the size and the e-paper touchscreen as shown in the image, Wireless Local Area Network (WLAN) connectivity, and also the properties of being dust tight and floatable (IEC standard 60529; IP65) should not exceed 50 U.S. Dollar.

16.August.2015
Comment of the Day
Swarmsat™

Ontonics Further steps
Thanks to our newest electric energy storage technology announced in the Further steps of the 8th of August 2015 we have developed a new electric energy storage device module and began with the dev- elopment of our mobile devices of the next generation, which have enough electric power for providing a runtime of 7 days when used 10 hours per day in full Light-Emitting Diode (LED) display and online modes, absolutely amazing functions, or/and all the other crazy stuff in our Innovation-Pipeline not possible before with other hardware and software solutions.

But for being able to use this electric energy storage technology with smaller devices, we have to scale it down even further, which demands other ways of construction and production technologies. Luckily, all what is needed has been developed by Ontonics and the OntoLab as well in the last months.

In this relation, we also have already planned for the future the production of mobile devices that will run even longer thereby con- tinously closing the gap to the mobile devices running for 1 month and longer (see the related Further steps of the 25th of July 2015).
Honestly, this class of mobile devices, which have such an incredible high performance is even for us a marvel of technology and that we are leading the way is totally beyond what we realize with all its im- plications. So what, as long as we have fun.

We have also decided to develop our first mobile devices with a sat- ellite transceiver, which have an acceptable dimension and battery runtime, as well as affordable price. The latter makes it especially interesting, because it enables us to bring our World Wide Web to the rest of the unconnected world.

Furthermore, we developed our own satellite technologies as well since many years, for sure. Today, we are very pleased to announce our CubeSat satellite network technology called:

which is an ingeniously intelligent, highly performant, and extremely affordable satellite network system, that no other entity is able to provide.
The SwarmSat units use our Wireless Supercomputer (WiSer) tech- nologies, are operated by OntoLix and OntoLinux (see the related OntoLix and OntoLinux Further steps of the 13th of July 2015 and the OntoLix and OntoLinux Further steps of the 13th of July 2015), and provide all functions like our swarm robots of Roboticle, including networking and high resolution 3D imaging.

Also for sure, we are trying to realize our special Space Launch System (SLS) as quick as possible, that we also developed specific- ally for this task together with our business unit Style of Speed, but we can also use any of our other SLSs or any suitable space launch service of another entity.

© :( and National Aeronautics and Space Administration (NASA)
©© BY 3.0 Wouter Weggelaar
PD CC0 1.0 BorisAirwolf
©© BY-SA 3.0 Sujeto

OntoLix and OntoLinux Further steps
We are continuing with the introduction of our Ontoverse.

Ontoscope Further steps
Based on the new electric energy storage device module of the OntoLab we have developed the first smartphone with a battery runtime of 7 days when used 10 hours per day in full Light-Emitting Diode (LED) display and online modes and even an Ontoscope with a battery runtime of at least 10 hours in full Light-Emitting Diode (LED) display and scanning modes.

Furthermore, we are pleased to announce that we increased once again the performance of a special high-end Ontoscope model (see also the related Further steps of the 28th of May 2014). Besides that the number of its computing environment was increased to 32 high-performance processors, the number of layers of its Hybrid Multi-Layer/stacked Display (HMLD) was increased to 10 layers (see also the Further steps of the 22nd of June 2015), which could be cautiously called a true holographic display now.

intelliTablet Further steps
Based on the new electric energy storage device module of the OntoLab we have developed the first tablet computer respectively intelligent tablet with a battery runtime of 7 days when used 10 hours per day in full Light-Emitting Diode (LED) display and online modes.

iRaiment Further steps
Based on the new electric energy storage device module of the OntoLab we have developed the first smartwatches respectively iR watches with a battery runtime of 80 days when used 24 hours per day in full Light-Emitting Diode (LED) display and online modes, 1170 days or around 3 years when used 24 hours per day in e-paper mode, and depending on the energy dissipation over 10 years when used 24 hours per day in power saving mode with Light-Emitting Diode (LED) or e-paper time indicators.

In addition, we are working on smartglasses and other types of wearable computer, smart wear, and intelligent raiment, which use this kind of electric energy storage technology to improve their usabilities.

Style of Speed Further steps
For sure and as already announced on the 8th of August 2015, we are working on the integration of our new electric energy storage technology (see the Ontonics Further steps of the 8th of August 2015 for example) with electric energy storage module systems, like the one shown in the Further steps of the 20th of July 2015 for example, by replacing the battery cells.

17.August.2015
Ontonics Further steps
We optimized our newest electric energy storage technology (see the Ontonics Further steps of the 8th of August 2015) to increase its efficiency even further, solved two specific disadvantages to improve its usability, and continued with the development of the scaled down variant to solve the general macro scale to micro scale problem in an elegant way.
As side effects, we could confirm once again that we developed the right concept and developed the concept in the right way, and even found out that our estimation of its specific energy was too low due to several reasons as explained in the following paragraph.

In this relation, we detected that we have publicated the wrong numbers for the specific energy, because we overlooked 3 orders of magnitude and a conversion from joule to watt (division by 3.6), and for the energy density, because we made a too optimistic estimat- ion that did not included some additional elements. In fact, the corrected specific energy is 2930 Wh/kg and the energy density is around 5600 Wh/L = 20 MJ/L.
As a consequence of this mistake and the new insight that our first estimation about the performance of our newest electric energy storage technology was too pessimistic, we made a second estim- ation. Indeed, the updated specific energy is 4400 Wh/kg and the energy density is around 5600 Wh/L = 20 MJ/L.

We also made another improvement that resulted in a variant, which provides a specific energy of 7730 Wh/kg and an energy density of 7000 Wh/L = 25 MJ/L.

But because we already announced that we have a bunch of further optimizations to research, develop, and realize in the end, it is more than obviouse for true experts that common contemporary metal and metal-air based batteries, including everything based on lithium and aluminium, are out of the game in relation with every application where they do not solve a special technical or/and economical need.

Besides this, we would like to clarify once again that in the case of using this battery technology in portable devices the recharging time is measured in seconds.

Doubtlessly, this is quite a lot and quick, specifically for the non- optimized variant, and our readers know now why we are speaking about a revolution.
So be amazed by us, the Hightech Competence, and be the first to sign our contracts.

In addition, we thought about two special variants and began the related research.

18.August.2015
Ontonics Further steps
Due to our special satellite technology used for our satellite network technology SwarmSat (see the Further steps of the 16th of August 2015) we can even fly lower than it was planned at first, which provides us additional advantages and possibilities related with our strategy.

We also added to our Innovation-Pipeline the two new projects:

which both are revolutions in the related fields of technology.

In this relation, we would like to recall that we already have intro- duced the:

and also have begun with their realization and installation since years. In this sense: The future is now.

19.August.2015
Ontonics Further steps
We continued with the improvement of our newest electric energy storage technology (see the Further steps of the 8th and 17th of August 2015), which resulted in two additional variants with the following estimated qualities:

All variants researched so far have their advantages and disadvant- ages due to the interactions with and the other specific properties of their elements, and other conditions not disclosed here. Said this, there is still work to do, which has become a little complex now.

We also continued the work related with the two special variants of our newest electric energy storage technology mentioned as well in the Further steps of the 17th of August 2015.

Furthermore, we developed our variant of a technology.

20.August.2015
Ontonics Further steps
We continued the work in relation with our new business divisions that are managing our

Specifically interesting is our planned content and subscriber model for the e-newspaper and the e-magazine.

Furthermore, we developed 2 more variants of our superior e-paper (see the related Further steps of the 15th of August 2015).

intelliTablet Further steps
For sure, we are working on Flip-Flops in the e-reader variant (see also the related Further steps of the 6th and 15th August 2015) with a colored electronic paper (e-paper) as well.
The image below shows a prototype of a colored e-paper, which has been presented in the year 2002 on the one hand and improved several times in the following years by us on the other hand.

© :I

21.August.2015
Ontonics Further steps
We developed two other variants of a foundational technology mentioned in the Further steps of the 4th of August 2015, which provide improved performances, and updated the related systems.

We also improved a basic component.

intelliTablet Further steps
We developed another basic e-reader variant of our Flip-Flop devices.

22.August.2015
Ontonics Further steps
We analyzed a complete system once again, worked out the little problems with our solutions and the big mistakes made by other entities, and developed a new system that solves these problems.

In addition, we applied the next improvement to our fusion reactor technology. As interim results a higher plasma density and an in- creased collision potential respectively fusion ratio can be achieved, and as an overall result an increased net power should be provided as well (see also the Further steps of the 15th, 17th, 18th, and 20th of July 2015).

23.August.2015
Comment of the Day
Press of the 21st century™

Ontonics Further steps
Not an e-paper, not an e-book, not an e-newspaper.
If we do something, then we do it right. Said this, we continued the work on the press of the 21st century (see also the intelliTablet Further steps of today below).

Furthermore, we developed two other variants of a foundational technology mentioned in the Further steps of the 4th and 21st of August 2015, which provide improved performances, and updated the related systems.

Moreover, we continued the work in relation with our newest electric energy storage technology. The result included several improve- ments making it ready for production.

intelliTablet Further steps
In relation with the ramp-up of our Flip-Flops we would like to show a prototype of an e-reader in the format of a newspaper in the very basic variant with black-white e-paper (see also the Further steps of the 6th and 15th of August 2015).

© :I

Ideally, the targeted price for a basic Flip-Flop with the size and the e-paper touchscreen as shown in the image, Wireless Local Area Network (WLAN) connectivity, and also the properties of being dust tight and floatable (IEC standard 60529; IP65) should be around 120 U.S. Dollar and with a colored e-paper touchscreen around 200 U.S. Dollar.
But needless to say, our Flip-Flop e-readers are only available with a subscription for one of our related services like e.g. the e-newspaper (see the Further steps of the 20th of August 2015), that most pot- entially has a reduced price or even is for free in the case of the smaller e-reader variant shown on the 15th of August 2015 for maxi- mal market penetration.

Your Windows to the World™

24.August.2015
Ontonics Further steps
We optimized two systems, which now outperform everything else and therefore have to be seen as absolute revolutions.
In the next step we will analyze how well the scaling down can be accomplished.

Furthermore, we developed our variant of a foundational technology by adapting another foundational technology.
In a subsequent step we developed our variant of another techno- logy based on this variant of a foundational technology.
Both technologies are revolutionary and have the potential to change our research and development schedule.

We also developed our two variants of a technology presented by another entity. The one variant is more energy efficient and the other variant offers another solution for a conceptual problem with the basic technology.

Style of Speed
Based on the latest improvement of our fusion reactor technology (see the Ontonics Further steps of the 22nd of August 2015) we have improved our:

which provide even higer extraordinary performances in air and vacuum now (see the Further steps of the 10th of July 2015).

In subsequent steps we designed related variants of our:

25.August.2015
Ontonics Further steps
We continued with the improvement of our newest electric energy storage technology (see the Further steps of the 8th, 17th, and 19th of August 2015), which resulted in the following update of the estimated qualities:

We now have to find out which variant suits our needs in the best way.

In addition, we thought about a special variant of a technology.

26.August.2015
Ontonics Further steps
We continued the work on a technology.

We developed a special variant of a technology.

We also developed another special variant of a technology.

And we developed a true geek device, which might become even highly interesting for common users.

iRaiment Further steps
We developed a device that might be interesting for many persons due to its broad range of applications.

Also, we designed another device.

Style of Speed Further steps
Based on an improved system and an improved technology we developed one of the best powertrains ever, with which we are redefining mobility once again.

Furthermore, we developed new powertrains for our electric skate- boards, electric kick scooters, and electric bicycles. Fans of such vehicles will love them.

27.August.2015
Ontonics Further steps
We developed another special variant of a technology, which is really a very good solution and most potentially will become a standard.

In addition, we developed a special variant of a system and related devices by integrating a specific technology. This solution looks to be very interesting and also important, because it handles a problem in a different way.

Also, we are pleased to give the information that our OntoLab, the one and only Lab of Visions™, has confirmed a new variant of a processor architecture with an improved arrangement, which pro- vides massive computing power and more high-performance features for fueling all of our stationary and mobile devices, as well as inter- net services. This thing is hot.

We adapted two recharging station technologies for the develop- ment of our variants of one of our electric energy storage device.

Roboticle Further steps
We are thinking about producing a basic model of our Multidrone™ product series (see also the Further steps of the 25th and 30th of March 2015 for example), which has the following features:

• GPS guided,
• follow-me,
• autonomous, and
• swarming,

and

Style of Speed Further steps
We added a feature to our range of Quickcharger technologies.

31.August.2015
Ontonics Further steps
We developed one of our new mobile device architectures further, which we think is the next generation.

In addition, we are preparing the filing of our next patent, that is related with one of our undisclosed technologies.

Ontoscope Further steps
We developed two new Ontoscope models. One is based on an older concept, which has become practical now, and the other one is based on our Flip-Flop technology.

intelliTablet Further steps
A new Flip-Flop model has been developed by us.