Max Power

It is possible to transfer gigabits of data with near perfect secrecy using the BitTorrent Protocols and BitTorrent Objects
providing one concatenates them together in a way to provide essentially concatenated encryption (as single step
encryption does not fully hide predictable plaintexts).

However, each BitTorrent object must be partially washed of its original value at the nibble (or byte) level, so as to
create meaningful intermediate cyphertext.

It is best that all of this be done by reprogramming (by command) LibTorrent, but with a separate function library
called say RotorSecure_LibTorrent.

At least initially this circumvented library should have 2 operating modes : Outbound Server or Inbound Server. The
roles should be changeable by a CAPCHA interface for secure reverse messaging. Some efforts must be made to hide
this encryption function library, but nothing too difficult to debug.

To hide a secret in the open, a public domain open source version of this technology should be available on the open
internet.

Branch code versions (for say individual Intelligence Agency use) should be maintained separately.

The outbound transmission (including any keying state negotiations, inbound or outbound) should appear as perfectly
bland and ordinary BitTorrent encrypted file transfers of no special importance.

During severe solar storms HVAC transformers used by utilities of dimensional size similar to a medium sized house are subject to catastrophic failure.

As these transformers have very long commissioning and repair schedules their failure poses a catastrophic risk.

Large parts of grids that depend on their existence of these AC transformers can be rendered nonfunctioning when the mega transformers fail.

This catastrophe can be avoided by using simple voltage
division and current division principals implemented in the form of redundant arrays of smaller HVAC transformers.

With the exception of some households that have been able to recycle their Yagi-Uda antennas (VHF, UHF or Dualband types) for reception of ATSC most North American households will continue to have television reception quality far below what the 8VSB signal transmission system is capable of achieving.

Historically : NTSC, PAL or SECAM fadeout events generally are "long duration" events due to the continuous wave nature of the traditional TV transmission signal.

These fadeout events were tolerable (or at least interesting) to the traditional analogue television viewer.

ATSC 8VSB fadeout events in the digital television era are generally catastrophic and random.

These fadeout events alienate less technically inclined television viewers, as the cause of reception failure is often not obvious.

Viewers in general expect digital television (regardless of how it is transmitted) to be more reliable than analogue television. This reliability has not yet been achieved.

Most 8VSB set top box decoders (as of the mid to late 2010s) only possess "2nd generation" adaptive reception chipsets.

These chipsets [and their associated receiver subsystems] have on average only adequate sensitivity to weak signals.

These receivers possess only a limited ability to cope with
instantaneous fade out events.

Longer duration fade out events are at best "coped with" generally with variable degrees of success.

The most up to date 3rd and 4th generation 8VSB adaptive reception chipsets often do not perform as optimally as their designers originally hoped.

There are a myriad of subtle (and gross) design and transmission issues that these receivers must cope with that are beyond the ability of a laboratory to simulate adequately.

Currently the ATSC HDTV viewer is left only with ongoing frustration.

Most 8VSB decoders uniformly fail to tell the viewer that the received signal is unhealthy before a link loss event.

Long duration fade events (as with analogue television) don't really happen with 8VSB as the digital television transmitters use 2/3rds to 1/3rd less power than their previous analogue relative.

Essentially, fractal antennas are the only way to make 8VSB HDTV reception reliable again, at the lowest possible cost to all parties involved.

In the global High Voltage Transmission trade, Phase Inverters are modified circuit systems designed to break off contact with the source of the abnormal excess AC or DC voltage.

Excess DC voltage can be caused by a geomagnetic storm, and must be avoided on HVAC lines.

Ergo, Phase Inverters are key to islanding a mains AC or DC transmission system when transmission line conditions are exceeded.

The BitTorrent protocol should (in the long run) be overseen by the International Telecommunications Union (ITU), in the capacity of providing "a framework for documenting the protocol state machines" (Client to Client, Client to Tracker & Torrent File Syntax).

The ITU should in no way interfere with the evolution of distributed file transfer protocols, but assist where possible to make these networks as compatible and interoperable with IP and Non-IP networks as possible.

Interlaced Rhombic Antennas can be used in the frequency ranges 1000 kHz to 1800 kHz for Directional High Power (beyond 50 kW) International Broadcasting.

The Directional Gain (dBu) of the Interlaced Rhombic Antenna system is great enough to allow single nations to be targeted.

This research proves concretely the viability of such a system in Australasia, where long range MW International broadcasting has been deemed for the most part nearly impossible for the past 80 years.

Paperback 1.10 may be the 1st outright case of state sponsored encoding of the crypto encoding stage on x86 Windows 10 PCs. The code being attacked has been around for some time -- the adage of updating often is a good security measure seems to be the rule here...

How It's Made is one of the most successful television programmes in the HDTV Era, with its initial start being on a DTV DTH channel in Canada. However, as with most barrage broadcasting, it can get into a rut -- and there have evolved hundreds of items and processes that have not been covered. The show is at risk due to "monoculture" and "lack of variety" and "lack of variation" problems.