Resilience Science
Resilience
Material
Resilience Science is derived from Material Science — the study of particle construction in various types of static materials.
Resilience means the ability to regenerate and the resitstance against dysfunction.
One works with determinants such as yield strength, strain resistance, and Newton stress; temperature; chemical influences; and the effects of these forces on the molecular grid of a specific material.
It is an advanced field of calculation, where you can determine a material’s capacity for strengthening, its ability to develop new traits, and the area or zone in which such strengthening occurs.
You can also determine corrosion (under-stressing), as well as identify the area or zone where the material becomes overstressed and reaches its point of fracture or distortion (over-stressing).
Human Resilience
The Materialities of Sensibility
Materiality
When working with the “human and/or biological material, we must derive the material-determinants from the molecular grid into "Materiality-determinants" because the particle grid changes to a `sender-receiver` systems, and operate under entirely different laws and rules than static material. We work with receptors, transmitters, transformers and transcenders. The areas, or zones, of interest for analyzes of behavioral design is; `under which circumstances do you achieve transitions and/or transcendence, beneficial to f.ex health´. the Transition phase is the area or zone in which the change is initiated, and the time lap needed to transit is the tranformation area,- and transcendence, is the phase where change is obtained, with the following effects. In Human materiality, this is a circuit of dynamic events.
Sensibility
A human operates through the senses.
The materiality of our senses is the biological structures and neuro-traits — a system auto-played by epigenetics, by the impulses received from the surroundings.
As with other materials, one can measure and determine in which zone of the resilience area the senses are stressed, and under what specific influences.
Human sensibility differs from that of other living creatures by its capacity for spiritual growth (spirituality here is synonymous with the search for reality and includes an important consciousness factor).
Humans also differ from other species in their ability to design non-real concepts.
Social and Health Sciences in their postmodern forms were historically designed and constructed to optimize and benefit the laws of productiveness.
The Resilience Science applied by Sinzerus is designed to benefit the laws of health.
Digital and sensory technologies must operate under the same laws — to mirror real life and enhance businesses beneficial to resilience.
Health
The resilience laws follow a set of objective and neutral laws, distinct from the conventional view of health.
These laws are physical and chemical in nature — neutral because they can only be altered through physical parameters such as temperature, pressure, or chemical composition.
When these same laws operate within living, mirroring systems, they manifest as metabolic and hormonal regulation — the physiological and emotional processes that sustain life.
Under such conditions, the laws are no longer neutral in their expression: their outcomes depend on epigenetic factors such as nutrition, coherence, and environmental feedback.
These determinants concern:
– the circumstances under which we create perceptions and behaviours or events that are not beneficial to health, and
– the circumstances and conditions under which we operate with behaviours or events that are beneficial to health.
Global Resilience
The Beneficiality of Health calculated as Profit
Resilience is the profit of Health.
A system that is resilient does not necessarily support human and global resilience.
But a resilience system supports and aids the living matter it was designed to serve — humans and Earth alike.
Systems exist only as enabling architectures — frameworks through which coherence, regeneration, and beneficiality can occur.
To take actors out of their natural surroundings and call it resilient is, by definition, not enabling resilience.
The science of health was historically founded on this reversed principle:
Through industrialization and optimization, health became a measure of performance — an input to economic growth, consumption, and productivity.
Within this model, wellbeing is treated as a cost, not a capacity.
The more we produce and purchase, the healthier the economy appears — even as the human and ecological systems beneath it decay.
And moreover, the more diseases we symptom-treat, the more the economy will grow.
Sinzerus’ Human and Global Resilience Science exposes this epistemic flaw.
The term resilience is not yet commonly understood in its full scope —
it is widely recognized in its psychological sense (as adaptation or recovery)
and well-defined in its material sense (as mechanical or chemical stability),
but rarely perceived as a systemic and epistemic property of health itself.
Sinzerus reframes health as the organizing principle of universal resilience — not as an outcome, but as the origin of consciousness-based and awareness design.
This awareness — the recognition of dysfunction — is the diagnostic process itself, through which the potential for regeneration is revealed.
When coherence and beneficiality of health become structural goals, systems no longer compete for profit; they circulate interactively and with vitality.
This redefines the index of measurement.
Profit becomes the residue of integrity.
Growth becomes the visible expression of coherence.
And resilience — as the property of health — becomes the foundation for a new kind of economic vista,
one that measures its success by the ability to regenerate and the resistance against dysfunction it sustains.